MM Copy 3 CLASSIFICATION
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DECLASSIFIED
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IANUAL
REGRADED UNCLASSIFIED BY ORDER OF SEC ARMY BY USAMHI PER
"LIBRARY 1 :1 AR 3
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ARMY WAR COLLEGE
DEPARTMENT OF THE ARMY FM 30-30 DEPARTMENT OF THE AIR FORCE AFM 50-40 DEPARTMENT OF THE NAVY OPNAV 32P-1200
CORRECTED COPY CHANGE
AFM 50-40F
AIR FORCE MANUAL! No. 50-40F J
DEPARTMENT OF THE AIR FORCE WASHINGTON, 1 January 1955
TRAINING Aircraft Recognition Manual AFM 50-40, May 1949, including Changes 50-40A, June 1950; 50-40B, June 1951; 50-40C, June 1952; 50-40D, June 1953; and 50-40E, June 1954, is changed as follows:
1. When the following portions have been removed, this Manual and its supplements may be declassified: a. The photograph and description of the Chase XC-123 aircraft in the addenda section of Supplement No. 2. b. The photograph and description of the Douglas C-132 aircraft in the addenda section of Supplement No. 4. c. All references to USSR aircraft "Type-Number" designations appearing in the Manual and its supplements, including the description of Soviet aircraft type designations in Supplement No. 2 which appears on the third page of the USSR section following the USSR tab. 2. After necessary action, this Change will be filed in the front of the Manual. BY ORDER OF THE SECRETARY OF THE AIR FORCE: OFFICIAL: E. E. TORO Colonel, USAF Air Adjutant General
N. F. TWINING Chief of Staff, United States Air Force
DISTRIBUTION: Zone of Interior and Overseas: Headquarters USAF_ ______________________________________ 150 Major air commands._,-_--_--_--__-----.-_--_--_-----__-_ 5 Except Alaskan Air Command____________________________ 36 Subordinate air commands.._-_.......___._....__-___-...._ 5 Except Services MATS. ________________________________ 2 Squadrons.--_-___------_-____----__________-__---_-______ 2 (1 each dayroom and orderly room file) Except AFROTC units---_____-_____________---_---_---_ 1 Miscellaneous: Air Division, National Guard Bureau-_--___-_-_-_____--__--1
LIBRARY U.S. ARMY WAR COLTEGJB
AUTHORITY
DEC 11 1958 COPY......... ..................
U. S. GOVERNMENT PRINTING OFFICE : 1955
O—337379
FILE
RECOGNITION MANUAL
SUPPLEMENT NO. 6 DEC 1956
DEPARTMENT OF THE ARMY FM 30-30 DEPARTMENT OF THE NAVY OPNAV 32P-1200/6 DEPARTMENT OF THE AIR FORCE AFM 50-406 DEC. 1956
The Aircraft Recognition Manual was produced jointly by the Army, Navy and Air Force for the guidance and in struction of personnel within the Department of Defense.
SUPPLEMENT NO. 6 DECEMBER 1956
||
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
FM 30-30
OPNAV-32P-I200
AFM 50-40
This manual and all supplements thereto supersede FM 30-30, 1 April 1943, including Sup plements 1, 2, 3, 4, and 5, and Recognition Pictorial Manual, Navy Department No. ANOPNAV-P32-100 (BuAer 3)
AIRCRAFT RECOGNITION MANUAL
SUPPLEMENT NO. 6 DECEMBER 1956
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
DEPARTMENTS OF THE ARMY, THE NAVY, AND THE AIR FORCE WASHINGTON 25, D. C.
AUTHENTICATION INFORMATION
(REVISED DECEMBER 1956) MAY 1949 FM 30-30_OPNAV 32P-1200 AFM 50-40, Aircraft Recognition Manual and all supplements thereto, are published for the information and guidance of all concerned. BY ORDER OF THE SECRETARIES OF THE ARMY, THE NAVY, AND THE AlR FORCE
OFFICIAL : JOHN A. KLEIN Major General, United States Army The Adjutant General
MAXWELL D. TAYLOR General, United States Army Chief of Staff
OFFICAL : G. L. RUSSELL Vice Admiral, United States Navy Deputy Chief of Naval Operations (Administration)
ARLEIGH BURKE Chief of Naval Operations
OFFICAL : E. E. TORO Colonel, United States Air Force Air Adjutant General
N. F. TWINING Chief of Staff, United States Air Force
DISTRIBUTION : ACTIVE ARMY: CNGB (1) ; Tec Svc, DA (1) ; Tec Svc, Bd (1) ; Hq CON ARC (20) ; Army AA Comd (5) ; OS Maj Comd (5) ; OS Base Comd (2) ; Log Comd (2) ; MOW (5) ; Armies (5) ; Corps (2) ; Div (5) ; Regt (2) ; Bn (2) ; AAA Co (1) ; Fr & Cp (2) ; USMA (5) ; Gen & Br Svc Sch (2) ; PMST (1) ; Mil Dist (3). NG: State AG (6). USAR: AAA Regt (1); AAA Bn (1); AAA Co (1). For explanation of distribution symbols, see SR 320-5-1. NAVY: (SNDL) 21, 22, 23, 24, 28A, 29, 30, 31, 32, 42, 46, G1A, GIB, G1D (5 copies) ; G3A, G3B, G3C, G3D, G3E (20 copies) ; G4A, G5B (5 copies) ; G5C, G5D (20 copies) ; G6A, G7A, G7C, G8B, G8H, G8K, G8M, G8P, G8T, G9V, G8X, G8Y, G9, G13, G14, G16, G17, G18, G19, G21, G22, G23, G7B, J3, J28, J34, J60, J79, J84, J94, J95, J105 (5 copies). AIR FORCE Zone of Interior and Overseas: Headquarters USAF (300); Major Air Commands (5), Except: Alaskan Air Command (36), State Adjutants, ANG (0); Subordinate Air Commands (5), Except: Services, MATS (2); Squadrons (1 each day room and orderly room file) (2), Except: ANG (0), AFROTC Units (1); Miscellaneous: Air Division, NGB (1).
SUPPLEMENT NO. 6 DECEMBER 1956
IV
FM 30-30 OPNAV 32P-1200/6 AFM SO-40G
FM 30-30
AIRCRAFT RECOGNITION MANUAL OPNAV 32P-1200/6 AFM 50-40G SUPPLEMENT NO. 6 CONTENT AND ARRANGEMENT
The Aircraft Recognition Manual covering air craft of the United States and Foreign Countries contains recognition information available on an unclassified basis. Principal air forces are grouped in the Aircraft Recognition Manual by section index tabs, and it is to be noted that pagination is not employed in this part of the manual. In its stead, within each section, aircraft have been arranged according to the Uniform Classification for Combining U.S. Air Force, U.S. Navy, and Foreign Aircraft. The lesser air forces of the world are included under a miscellaneous tab in alphabetical order. This supplement, the sixth to be published, pre sents new up-to-date aircraft recognition ma
terial. The following listing, as of December 1956, is a complete in-line assembly arrangement of the publication. Insert the new sheets in their proper sections. Numbered pages are to replace corre sponding superseded pages. In the Addenda sec tion, following the tab, new sheets are to be added by country or miscellaneous as marked in upper left and lower left corners. Black dots (•) repre sent new and revised Aircraft Recognition Sheets to be inserted in the proper section and sequence as indicated. Superseded or deleted pages are to be destroyed. It is important that the standard continuity be maintained at all times in order that revisions and supplements may be entered without delay or confusion.
y Title Page —.—„..————_—_————_—— •! ^ Promulgating Letter _._—_.——._—————— »IV " Content and Arrangement —.——„——— •V 6' Introduction „—_._—_..„__—_.„.————„-— •Vlll ^ Uniform Classification of Aircraft ...——— 1 Designation of Air Force Aircraft .___...—. 2 Designation of Naval Aircraft _—.._.——_— 4 U. S. Aircraft Names and Designations _._ 10 Manufacturers of Foreign Aircraft ———— 14 Aircraft Engines ——————.-..—————— 16 Propulsion —...—.——_—__.—__.„——___—.—— 17 Designation of Service Aircraft Engines .... 19 International Aircraft Registration Sym bols -—...-—__-—„—-_.__„.._—-—.._—_.-.20 Glossary —.—_.._.——_.———._.._._____——_____.. 22 Recognition Features of Gun Calibers _— 27 Illustrated Recognition Features —........._~ 28 Annotated Aircraft Illustrations —————— 29 National Military Aircraft Markings —— 30 Addenda (TAB) __.„._____—_______ 39 USAF (TAB) Air Force Aircraft Illustrated: Bomber B-52 ____ June 1954 B-29___. May 1949 B-36 --- June 1951 L B-17 .__ June 1950 " B-47 —- June 1952 * B-25___ May 1949' B-57 -— June 1954' B-26—... May 1949'// B-45-— June 1953 : B-58.__.. «Dec 1956^ B-50—- M&y 1949': B-66 _._ «Dec 1956 'J Fighter F-47—- May 1949-/ F-r86D .... June 1953 F-51—- May 1949'/ F-86H — ••Dec 1956 V
Fighter (Continued) June-1951/ F-89 -—— May 1949^ F-94F .... F-94C -May 1949^ June 1953 V F-100...... June 1954 ^ F-101A-. June 1952 • F-102...... F-104 ___
F-80 -_-F-82 _____ F-84 _____ F-84F .... RF-84F.. F-86 —....
June June June June • Dec • Dec • Dec
Cargo-Transport C-46/R5C Ma;j, 1949^ C-119H— June C-47/R4D May 1949^ C-121 ...... May C-47F/ C-121C/ R4D-8 June 1953. R7V -- June C-54/R5D May 1949 C-122 ...... June C-74 ........ May 1949 C-123 ...... June C-82 ........ May 1949 C-124 ...... June C-97 May 1949 C-125 .... June C-118B/ C-131 ...... June R6D .... June 1951 . C-133A— «Dec C-119/R4Q June 1952 EC-185— • Dec
1952/"' 1952^ 1954^ 1954/ 1956" 1956'' 1956 ' 1953' 1949 1953 ^ 1950 ^ 1950 J' 1950" 1950^ 1954^ 1956^ 1956 •
Trainer T-6/SNJ June 1951 T-29 ...... June 1950 T-28 __ June 1950 T-33/ TV-2 - June 1950 L-5 _ L-13 ... L-16 _. L-17 _.
June May May May
Liaison 1950 -J L-19/OE June 1952 / 1949-, L-20 ...... June 1952^ 1949 '• LC-126^,x June 1952 Tr-: V.•.•• /'••-, 1949 ' \t,,. ,'] , / ... ^J
• Insert latest sheets and destroy superseded sheets.
SUPPLEMENT NO. 6 DECEMBER 1956
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
US NAVY (TAB) Navy Aircraft Illustrated: Patrol and Transport PB4Y-2/1 , PBY-6A May (P4Y) May 1949 PBM .__ May P4M __._._ May 1949 / P5M ._. June r v .......... ____ May PV i¥i.a^ 1949" *.v±a , P5M-2 -- wiix—« _ — vJune uii P2V ....... June 1953^ P6M-1.... «Dec P2V-7 .... iDec 1956 ^ R3Y/P5Y June Search and Attack May 1949 f AF .__ May 1949 f AJ ___ June 1953" A3D _ June 1953'7 A4D-1 May 1949^
TBM __ SB2C __. AD ___ AD-5 AM ___ F4U ...... F6F F2H-3 _ F3H ........ F3H-2N F7F ..______ F8F .______. F9F __._-._. F9F-8 .... F11F-1 ._
May May June June • Dec May May June • Dec • Dec
R60/ (R6V) JRM ______ HRP-2/H21 ______ HRP-1 __ HUP/H-25 HO3Sl/H-5 H-12 _..___ HTL-2/H13B ___. H05S/ H-18 _.
RAF Aircraft Illustrated:
1949^ 1949^ 1952 y 1954^ 1956 ' 1954'
June June June • Dec
1952^ 1953' 1953' 1956 ^
Figh ter 1949 / FH ........ May 1949 ' F2H -.... June F9F-6 -- June 1953 FJ ____-... May 1953 ' FJ-2 __.... June 1956 J 1949 ', F7U .-..-. June F8U-1 ___. • Dec 1949 ' F3D ________ June 1952" F4D ________ June 1956 l/ 1956 J F5D-1 ____. .•Dec
1949 1953 " 1952^ 1949 l 1953, 1953' 1956 1950^ 1954 '" . 1956 ^
Miscellaneous SC -.--- May 1949'7 , May 1949 v< UF/SA-16 June 1952 y May 1949 /
June June June June June June June
Helicopter H04S/ 1950^ H-19 .. June 195(K HSL ..____ June 1950 v HTE/H-23 June HOK ...... June 1950v HTK ._.._. June 1950 v flying Platform -._-_ «Dec 1950x H-32 ...... »Dec H-34A __ «Dec 1950 " H-37A .. «Dec
1953 1953 1953 1953 s7 1956 " 1956 v: 1956-' 1956^
Lighter Than Air ZPN ........ June 1953' ZPK ..._.___ June 1953 ' ZPM .___.... June 1953 / ZPG -..._.. June 1953 y BRITISH COMMONWEALTH (RAF TAB) The British Royal Air Force, Fleet Air Arm, and their Equipment. Australian, Canadian, In dian, New Zealand, Pakistan, South African Air Forces and their Equipment. British Aircraft Designations. • Insert latest sheets and destroy superseded sheets.
SUPPLEMENT NO. 6 DECEMBER 1956
Bomber Lincoln Mk. 2 ....__.„„_...——--_..-__._.—Shackleton .-_.______-__-___.—-—--_—-—._ Vulcan ______.-_._-____-._-.—_——...-—______—... Victor ____..__—.—-_.——....————.——_-— Valiant -__..---______-_-_-.._--.- —__._... Canberra —————-_-_————.._—..—— Mosquito —-_———_—___————__....—— Sunderland -...__-..-.....——--—-...-—
May June June June June June May May
Fighter Spitfire Mk. 24 ____.._.._..__.._................___ May Meteor Mk. 4 ______._..__..____...__..._______._.... May Meteor F. Mk. 8 __..__...___-.—_-_-__-__—.__ June Meteor N. F. Mk. 11 _____.____......__...._..___ June Vampire Mk. 3 ____..-.__..-.-—.-.___.--..-.. May Venom Mk. 1 ____-___....—-..—-_-__-__..-.. June Hunter ______._-_..-____.....—-__-—...._—..—.._ June Swift -___-.-—_-..__—-.-_—-.-._-.-.—-.. June Javelin __-.-.—.-..___-..--..__-—.—_..____—.—. June D. H. 110 ____________________ *Dec Midge (Gnat) ____......__.__-____.......-..._.-_-• Dec English Electric P-l ____......-_._..___...-... «Dec
1949^ 1949' 1951 >/ 1951 ~" 1949 -/ 1950 •/ 19541954 "' 1954^ 1956 ^ 1956^' 1956 t/'
Cargo-Transport Britannia ___...____.__-.__..._______.._-__..._.____ York ....._-____._-...........-__.._.._......-._.-__..-... Hastings __-._-.-_-___.-____.-...__-_-___-..__ Tudor Mk. 4 __._____.___.._.-.__....______..__...... Comet ..__-__.-...____._....__._-__-__.._.._._____._._. Viscount __-—,-—__-_-__-___-—_—_-.-_..-_„__Marathon -....._-_-_......__-____—.........-_-...... Freighter -...__-_____-.._-__..__........._____...... Ambassador —————.————.___.—...... Valetta -_-_.-....-_._____.-_.....-_...........___....... Varsity T. Mk. 1 .__.._____.._...__.___..___._...__ Dove/Devon -...__.—_-___-__..——__-___.——_._
»Dec May May May June June June June June May June May
1956^ 1949" 1949 * 1949 ; 1953 ^ 1953 ^ 1953 " 1953 ; 1951"., 1949 1950 " 1949 ^
Trainer-Liaison Balliol T. Mk. 2 ______________ Chipmunk -—_.-_-_-___.._..-..___.._....___-...... Athena T. Mk. 2 __.._._________.........___„.... Provost ____—-—_-__-..—__-_-.—_._._____-_.—. Auster A. 0. P. ___________________
June June June June June
1950'^ 1950 ^ 1950 / 1953 v 1952 V
ROYAL NAVY (TAB) Fleet Air Arm Aircraft Illustrated:
Attack Brigand Mk. 1 ______...._.__.___....______._.._..... May 1949^ Firebrand Mk. 5 __..-__.___..-..________..—. May 1949 Firefly Mk. 4 -_..__._-_.._...._..-.__.____._.....—. May 1949 Gannet -_-_._.-__,_____...._.__,-....._._...._____..... June 1952 V Sea Mew ____..__...._____.......__.........._.__.._._. June 1954^'
FM 30-30
VI
1949 " 1950 u 1954' 1954 "" 1954 ~ 1951 , 1949 1949 "
OPNAV 32P-I200/6
AFM 50-40G
Fighter K ;,-,,_-r-' ,Seafire Mk. 47 ____..___.______.____.__^:_/r:__'_".!_ June Seafury _____________ ______________________________ June Sea Hornet ________________________________________ May Sea Vampire ______________________________________ June Sea Venom —_—________—_____________________ June Attacker _______________________________________ June Sea Hawk _______________________________________ June Wyvern _—_____—__ ____________________________ June
Fighter (Continued) Flora (Yak-23) __________________________________ June Fargo (MIG-9) _________________________________ June -Eagotr (MIG-15) ^^"..r..!............-.. June Fresco _______________________________________ June Fantail _________________________________ __ June Flashlight __._.__. ______________________________ «Dec Farmer ____.___.„__—„_-____„__—_-_____-___ «Dec Cargo-Transport Camel (Tu-104) .„..._.___._____________...__• Dec Utility June Sea Prince ______________________________________ June 1951 ^ Cab (Li-2) ...... Coach (11-12) ___________________________________ June Sea Otter .__.__—___-_——.——......——__-. June 1953 Clam (11-18) ______________________________________ June R. C. A. F. Aircraft Illustrated: Cart (Tu-70) ___..__.._____..___________.___.______ June Colt (An-2) _______________________________________ June Fighter ?CF-100 Canuck ________._____________________1: June 1951'"° Trainer Midget (UMIG-15) ____________________________ June U. S. S. R. (TAB) Magnet (UYak-17) ____________________________ June The Soviet Air Forces, Aircraft Designations Mule (Po-2) _____________________________________ June and their Equipment. 1951^ 1953 1949" 1951 / 1952 / 1952' 1950' 1954'
S. A. F. Aircraft Illustrated: Bomber Barge ——————______._—_____________________ Bull (Tu-4) __________________________________ Pe-8 _ _ Badger _—-______ ____________ _____.. ________ Buck (Pe-2) _.._.._.._.._....._._..__..._.. Buck (Pe-3) ___________________________________ Bat (Tu-2) ________________________________________ Bob (11-4) ___________________________________ Butcher (11-28) ________________________ Bosun —_-_-—_-______-___-_-______.__-___________Bison —.——_—-——__——_—_-—__________Bear ______ __________________________________________
June June June June June June June June June June «Dec «Dec
1954' 1954' 1949 ^ 1954^ 1954 1954 1954' 1954^ 1954: 1954 ^ 1956*^ 1956^
Patrol Mop (GST) _ . _ _ June 1954 / Mug (MDR6) ________________________________ June 1954' Mote (MBR-2) _____________________________ June 1954' Attack Bark (11-2) _ June 1954 Beast (11-10) __________________________ June 1954 Box (A-20) ................_.....,....._........._.. June 1954 Fighter P-39 Airacobra _______..._.——„._____.__ June 1951' Fred (P-63A) ...._......„_._________.. June 1954 -^ La-5 -,———_—_——_..——..———_—-_„— June 1949^ Fin (La-7) ____________________________ June 1954 y Fritz (La-9) ________________________ June 1954V Fank (La-11) ______________„____._____.__..._ June 1954^ Yak-3 —.__—__-_-——___-._—_—__-_-—_____._- June 1949 17 Frank (Yak-9) __..___..__.-....___.___.____ June Yak-15 ..............„......„.....................__... June 195V Feather (Yak-17) ._.._._._._.____..___..._._._ June 1954
SWEDEN (TAB) The Royal Swedish Air Force and R. S. A. F. Aircraft Illustrated: Bomber B-18 ______.._.____________.-____-_____-____Fighter J-21 _________________________________________ J-21R ________________________________________ J-22 __________________________________________________ J-29 __________________________________________________ Attack A-32 ______________________________________________ Cargo-Transport SAAB-90 ______________________________________________ Trainer-Liaison SAAB-91 Safir _________________________________
1954 *"" 1954lX 1954^ 1954' 1954 1956' 1956" 1956^ 1954^ 1954^ 1954^ 1954^ 1954 1954^ 1954^ 1954^
Equipment.
May 1949 'May May May June
1949' 1949 '' 1949" 1951 ^
June 1954^ , May 1949 , June 195417
FRANCE (TAB) The French Air Force and Equipment. F. A. F. Aircraft Illustrated: Fighter M. D. 450 __„____________-________________._ S. 0. 4045 _________________________________________ M. D. 452 ______________________________________ Cargo-Transport Caravelle ___-_...__-__.-__..-_--_.__--__M. D. 315 .......... _____ _._._.__-_.-..._______-__. S. 0. 30 _______._____.___._.._____________.--_. Nord 1400 ___ ________.____________-_-.._.._ Nord 2501 ..................................._...._
^ June 1953 / June 1954 j »Dec 1956 j »Dec 1956 , June 1953^, June 1953^ June 1953 Jtine 1954
MISCELLANEOUS (TAB) Other Air Forces of the world, listed alpha betically, and their equipment.
• Insert latest sheets and destroy superseded sheets.
SUPPLEMENT NO. 6 DECEMBER 1956
VII
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
'J
INTRODUCTION
of their particular shapes, but two pitfalls should be avoided: (1) Minor details, no matter how distinctive, should not be emphasized as they are un likely to be visible at worth-while dis tances. (2) In analyzing an airplane part by part, care must be taken not to lose sight of the plane's over-all configuration. Each element should be examined not as a recognition feature in itself but as an integral part of the plane's general design. Although the substance of an airplane is only a summation of its parts, its appearance evolves not only from the characteristics of its compo nents but also from the way such components are visually related to each other. It will be found much less difficult to remember the appearance of an airplane as a single integrated unit than to try to keep separately in mind the character istics of all its major parts. Learning the airplane this way is not only easier but infinitely more effective when the time comes for putting the knowledge to work. In recognition, skill endures only with practice. No one is ever permanently checked out to the extent that he need no longer study. Constant review sparked by an aroused interest and en thusiasm is essential as long as the recognition requirement exists. With this thought in mind the members of the U. S. Armed Forces can improve their acquaint ance with the military and naval aircraft of the United States and the aircraft produced and flown by the nations of the world. In addition, com mercial aircraft which are seen on all airways will be of military interest to the armed services, for it is a certainty that any commercial aircraft which can be used as military transports, liaison or observation planes will be so utilized by the enemy if the need should ever arise.
Visual recognition of aircraft will be important as long as men fly in airplanes. Electronic devices can seek out other aircraft, track the fighter airplane to within firing range, and even auto matically fire the rockets or cannon, but the PILOT can best determine whether the target aircraft is FRIEND or FOE and permit or abort the final destruction. Antiaircraft gunners can track and fire effec tively at low flying, plainly visible aerial vehicles, but someone determines whether the target is FRIEND or FOE before the order "Open, Fire" is given! "But with supersonic aircraft we will not have time to recognize target airplanes," is one state ment often heard. Experienced combat pilots who have time or flight experience in supersonic air craft say that it is possible to recognize target aircraft 98% of the time during supersonic passes before firing range is reached. And they say with supersonic flight experience and aircraft recog nition training, 100% in aircraft recognition is possible! The closure rates for supersonic combat are not high, between 50 and 100 knots, and per mit positive identification from all types of passes (except head-on) before the point of break-away. So increased aircraft speeds mean only that recog nition will demand greater effort and more prac tice. Airplanes like automobiles do differ. Trained observation can detect their underlying differ ences. Success in aircraft recognition depends up on complete familiarity with aircraft appearances. This can be achieved only by continued study aided by a number of training devices available for this purpose. It is the aim of the Aircraft Recognition Manual to supplement the use of such training aids and to provide a convenient volume of reference. Airplanes must be studied in detail in order to gain familiarity with the distinguishing features
SUPPLEMENT NO. 6 DECEMBER 1956
VIM
FM 30-30 OPNAV 32 P-1200/6 AFM 50-40G
DECLASSIFIED CLASSIFICATION OF AIRCRAFT Uniform Classification for Use in Combining USAF, Navy and Foreign Aircraft Airplanes (c) Light Bomber Non-military b. a. Heavy or Heavy Patrol (1) Heavy b. Medium or Medium Patrol (2) Medium c. Light or Light Patrol (3) Light d. Attack 5. Trainer 2. Fighter a. Advanced a. Interceptor b. Primary and Basic b. All Weather 6. Search and Rescue c. Penetration 7. Communications/Utility 3. Reconnaissance 8. Special Research a. Strategic Other Aircraft b. Support/Tactical 9. Target Transport a. Capable of carrying pilot a. Military Not capable of carrying pilot b. (1) Combat Aircraft Pilotless 10. (a) Heavy of carrying pilot Capable a. (b) Medium of carrying pilot capable Not b. (c) Light Missiles Guided 11. (2) Non-combat 12. Glider (a) Heavy 13. Lighter-than-air Craft (b) Medium Information Useful in Subclassification of the Above (4) Tricycle 1. Basic Configuration (5) Conventional-tail support a. Fixed Wing b. Ship b. Helicopter (1) Carrier c. Autogiro (2) Non-carrier (specify type) 2. Number of Engines c. Water 3. Type of Propulsion (1) Pontoons a. Propeller (2) Hull (1) Reciprocating engine d. Amphibian (a) Pusher e. Parasitic (b) Tractor 6. Specialized Equipment (2) Turbo-Prop a. Anti-submarine (a) Pusher b. Early Warning (b) Tractor c. Radar/Radio Countermeasures b. Turbo-Jet d. Control of Remotely Controlled Aircraft c. Rocket 7. Missile Aircraft d. Ram Jet a. Air-to-Air e. Pulse Jet • b. Air-to-Surface f. Combination of Above c. Air-to-Underwater 4. Guidance d. Surface-to-Air a. Piloted e. Surface-to-Surface b. Remotely Controlled f. Surface-to-underwater (1) Beam Rider 8. Guided Missile (2) Command Guidance a. Air-to-Air (3) Celestial Navigation b. Air-to-Surface (4) Homing (Specify) c. Air-to-Underwater 5. Type of Base d. Surface-to-Air a. Land e. Surface-to-Surface (1) Skis f. Surface-to-underwater (2) Tractor g. Underwater-to-Air (3) Bicycle h. Underwater-to-Surface AFM 50-40 MAX 1949 OPNAV32P-1200
DECLASSIFIED
CLASSIFICATION AND DESIGNATION OF U. S. AIRCRAFT Designation of Air Force Aircraft (AFR 65-60) 1. Definitions: a. "Type" as applied to aircraft designates the original design purpose of an aircraft, i.e., bombardment, fighter, cargo, etc. b. "Model" as applied to aircraft designates those aircraft of a given type which are alike in general configuration, construction, equipment, and performance. c. "Series" as applied to aircraft designates those aircraft of a given type and model having, for all practical purposes, interchangeable parts and identical tactical usefulness. 2. Designator Assignment. Aircraft will be assigned a basic type designator in accordance with the function for which they are basically designed. When a type of aircraft is modified to perform a function other than its basically designed function, the basic type designator will be prefixed by the appropriate auxiliary symbol. a. Type. The basic type designation will consist of one letter as follows:
Type (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)
Amphibious...................................................... Bomber.......................................................... Cargo. .......................................................... Fighter. ......................................................... Glider........................................................... Rotary Wing (Helicopter).......................................... Liaison.......................................................... Target Aircraft and Drones........................................ Reconnaissance................................................... Search and Rescue................................................. Trainer. ......................................................... Special Research or Experimental...................................
A B C F G H L Q R S T X
b. Model. A particular model of a given type will be designated by a number or numbers sep arated from the preceding type letter or letters by a dash, such as B-50. c. Series. Following the model number there will always be a series letter; such as B-50A. The letters "0" and "I" will not be used. The series letters of a model will be changed when: (1) A change is made in the engine which materially affects the engine performance rating or seriously affects the interchangeability in the aircraft. (2) A change is made in propellers which affects interchangeability (Curtiss instead of Hamilton Standard) or flying characteristics of an aircraft (13' 6" propellers instead of 12' 6" propellers). (3) A major change is made in primary installed armament (Addition of chin turret, addition of side guns, installation of 20 mm guns instead of .50 caliber, etc.). (4) A major change is made in structure and/or equipment installation affecting inter changeability. 3. The following is a breakdown of the XB-50A, employing the foregoing definitions. X———————————————B———————————————50———————————————A
Type (Experimental)
Type (Bomber)
Model (Model No.)
Series (Interchangeable Parts)
4. Prefix Symbols. The symbols listed below will be used as prefix symbols to indicate the current usage of an aircraft when it is so modified that its originally intended usage is no longer applicable.
MAY 1949
AFM 50-40 OPNAV 32P-1200
Security Information
As an example of this redesignation, a B-50A aircraft modified as a reconnaissance aircraft will be redesignated an RB-50A, An aircraft so redesignated will retain this prefix until such time as those features which provided its reconnaissance characteristics are removed and it is restored to its original basic condition or remodified for an entirely different function. Only in exceptional cases will more than one prefix symbol be used to designate an aircraft. Such an exception could occur, for example, if an RF-80 is modified for reconnaissance training. It would then be redesignated as a TRF-80. However, if it is modified for normal training purposes, it should become a TF—80. If more than one prefix symbol is used, the first symbol from the left will be considered the primary prefix symbol and the next one the secondary prefix symbol. a. Prefix "B." The prefix symbol "B" will be used to designate aircraft modified to function as bomber type aircraft, i. e., the inclusion of a bombardier nose in fighter type aircraft. The addition of external bomb, torpedo, or depth-charge carrying devices and dive or skip bombing sighting equipment on any basic type aircraft does not constitute sufficient cause for the redesignation of that aircraft as "B" type. b. Prefix "C." The prefix symbol "C" will be used to designate aircraft specifically modified for cargo use. Basic type aircraft utilized for cargo purposes without modification will not be redesignated with the prefix "C." c. Prefix "D." The prefix symbol "D" will be used to designate those aircraft which are modified to function as director aircraft in conjunction with remotely controlled aircraft or guided missiles. d. Prefix "F." The prefix symbol "F" will be used to designate basic aircraft modified for fighter operations. The addition of rocket launchers on liaison or rotary wing aircraft does not constitute sufficient cause for redesignation as "F" type aircraft. e. Prefix "G." The prefix symbol "G" will be used to designate those powered aircraft after modifica tions removing all means of self-contained thrust have been completed. f. Prefix "K." The prefix symbol "K" will be used to designate all aircraft modified as "in-flight" refueling tankers. g. Prefix "L." The prefix symbol "L" will be used to designate aircraft modified for liaison missions. The use of this prefix will be extremely limited. h. Prefix "M." The prefix symbol "M" will be used to designate aircraft modified for use as missiles. i. Prefix "Q." The prefix symbol "Q" will be used to designate basic aircraft modified through the inclusion of special electronic equipment for use as targets or drones. j. Prefix "R." The prefix symbol "R" will be used to designate those basic aircraft which have been so modified as to make them suitable for photo and/or electronic reconnaissance missions. k. Prefix "S." The prefix symbol "S" will be used to designate basic aircraft modified through the inclusion of special search electronic equipment, airborne life boats, life rafts, or extensive life saving equipment, etc. This symbol will not be used to redesignate those aircraft utilized for air evacuation of litter patients. 1. Prefix "T." The prefix symbol "T" will be used to designate those aircraft which have had equip ment removed to make them more suitable for training purposes. This symbol will also be used to designate those aircraft modified through the inclusion of special training equipment, i. e., navigator trainers, engineer trainers, etc. Aircraft used for training purposes for which authorization to remove equipment has not been granted, will not carry the prefix "T". "T" prefixed aircraft will not be considered suitable for return to combat status; therefore, the "T" prefix normally will not be authorized to combat potential aircraft. m. Prefix "V." The prefix symbol "V" will be used to designate those aircraft which are modified as staff administrative aircraft. This will include all "staff-modified" aircraft wherein the modification is not indicated by a series letter. Staff administrative aircraft will include all aircraft which are soundproofed in other than the crew compartment and equipped with passenger seats other than crew-type seats. n. Prefix "W." The prefix "W" will be used to designate those basic aircraft which have been so modified as to make them suitable for weather reconnaissance missions. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30
OPNAV 32P-1200/3 AFM 50-40C
Security Information
5. Classification Symbols. Aircraft may have any one of the following classification symbols applied where applicable. a. Classification "E." The classification symbol "E" (Exempt) will be used to designate those aircraft on special tests or experimental projects by authorized activities and for aircraft on bailment contract (Work ' contracted for by a nonmilitary agency using AF-owned aircraft). This will not include aircraft undergoing contractual removal from storage, reconditioning, modification or modernization to meet an Air Force program, requirement, or characteristic. Aircraft utilized in special tests, experimental projects, or bailment contracts that have not received modifications and where the interchangeability of the aircraft with like type, model, and series aircraft has not been affected, will not be classified with the symbol "E". At the termination of tests, etc., "E" classified aircraft will either be returned to their original condition and designation or, if certain modifications become a permanent part of the aircraft, an appropriate redesignation of prefix, series, or block, other than "E," will be made. The "E" classification is not applicable to "X" classified aircraft. b. Classification "X." The classification symbol "X" will be used to designate experimental aircraft and indicates that the item being developed has not progressed to the stage where engineering tests indicate that the item is sufficiently satisfactory to warrant service tests. This classification also will be used to designate production aircraft that have been so modified for experimental or other reasons as to make them permanently unsuitable for an operational or training requirement, i. e., the experimental installation of R^360 engines in B-29 aircraft, the experimental installation of tandem landing gear on B-26 aircraft, etc. c. Classification "Y." The classification symbol "Y" will be used to designate those aircraft which have the required military characteristics and are of a quantity produced to develop the potentialities of the model. This classification indicates the item has been developed beyond the experimental stage, but is not ready for classification as an adopted item. d. Classification "Z." The classification symbol "Z" will be used to designate aircraft which are considered by the Chief of Staff, USAF, to be obsolete and of and for which no further procurement will be made. Obsolete aircraft are those aircraft that are declared unsuitable for their original military purposes or for training purposes. The assignment of a classification symbol to an aircraft will replace any prefix symbol which the aircraft currently possesses, except where the aircraft concerned retains thqse characteristics and/or equipment which previously classified it under the type indicated by the prefix. In such exceptional cases, the assignment of the classification symbol will be in addition to the prefix symbol. For example, if an RB-17 is placed on bailment contract and is modified, but still retains its reconnaissance features, it would be reclassified as an ERB-17. However, if its reconnaissance equipment is removed, it would become an EB-17. On the other hand if this aircraft is completely superseded by more modern aircraft, it would become a ZRB-17. If, while still in service, the reconnaissance equipment is removed, it then becomes a ZB-17. In no instance will the aircraft classification, prefix, and type designator exceed three symbols. In the event a classification symbol is assigned an aircraft already designated with two prefixes, only the most important prefix will be retained.
Designation of Naval Aircraft. 1. Naval aircraft are diA7ided into types designated as follows: Type
(a) (b) (c) (d) (e)
Designation
Heavier-than-air (fixed wing)-_...'__.________________________________________ Heavier-than-air (rotary wing)___-_-_-_-__--_--_-_______.,_-_--_----____-__-_ Pilotless (target) Drones_______.__-_________-___-___-____.________________' Guided Missiles_________________________________________'______________.._ Lighter-than-air_________________________^____,.___..___^__.____________________
V H K M Z
2. The above types are further subdivided into classes in accordance with their basic usage for which the aircraft is designed as follows: SUPPLEMENT NO. 3 JUNE 1952
FM 30-30
OPNAV 32P-1200/3 AFM 50-40C
Security Information
(a) Heavier-than-air (fixed wing) Type "V" Class
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)
Mission
Designation
Attack (A) _______---___ Surf ace and ground attack__-________-_.,______Fighter (F)_____________Air defense and escort__________________________ Observation (O)_^______Gunfire and artillery spotting__________-_-___-_-Patrol (P)____________ASW reconnaissance and attack,_________________ Transport (R)__________Airlogistic support_____________________-_____-_ Search (S)________-_____Submarine search and attack____________________ Training (T)____________Basic and fleet training______-_-__-----_--------Utility (U)._.___..__-__Fleet utility support..-.-----------------------Glider (G)..._.............:.......................................... Warning (W) __________ .Airborne early warning. _________________________
VA VF VO 5* VP* >* VR* VS VT VU VG VW
*NOTE: For administrative purposes Class VP and VR aircraft are further classified into four-engine landplane, two-engine landplane, four-engine seaplane and two-engine seaplane and are further identified by adding the letters (HL), (ML), (HS) and (MS) respectively to the basic class designation. (b) Heavier-than-air (rotary wing) Type "H" Class
(1) (2) (3) (4) (5) (6)
Designation
Cargo Unloading (Crane) (C)-----__.-_._.---_.------_.--- — --_. — . Observation (O)-_------_---------------------------------------------Submarine search and attack (S)________________________________________ Transport (R)_ _ _____________________________________________________ Training (T)_____-____________-_______-_____________________-_________ Utility (U)...........................................................
HC HO HS HR HT HU
(c) Pilotless Target Drones Aircraft Type "K" Class Designation (1) Aerial target (D)_,-_-___-_----______-----_________-__-____-_-___-_-KD (d) Guided Missiles Type "M" Class
Designation
(1) Tactical Weapons (a) (b) (c) (d) (e) (f)
Air to air___--_-___--------_-__-----___-___-____-_-__--___..-.__ Air to surface___________________________________________________ Air to underwater.______________________________________________ Surface to air___________________________________________________ Surface to surface.______________________________________________ Surface to underwater.___________________________________________
AAM ASM AUM SAM SSM SUM
(2) Test Vehicle (TV) (a) Control guidance._______________________________________________ (b) Launching____________________________________________________ (c) Propulsion._____________________________________________________ (d) Research.______________________________________________________
CTV LTV PTV RTV
(e) Lighter-than-air Type "Z" Class
Designation
(1) Patrol (P)_.______-_--__-_-_-_-_______-____-_____-_____'_______________ (2) Training (T)____________-______________________________________________ SUPPLEMENT NO. 3 JUNE 1952
ZP ZT
OPN3AV°32P-1200/3 AFM 40-40C
Security Information
3. Manufacturer's identification letters have been established to simplify the designation of naval aircraft, except guided missiles and test vehicles, and to identify the manufacturer of the aircraft. The identification letters assigned to manufacturers of naval aircraft are grouped according to types of aircraft produced. Airplane manufacturers not currently engaged in the active manufacture or devel opment of airplanes for the U. S. Navy, are listed as "inactive." (a) Identification letter
B D
E F H J M O Q U V Y
Aircraft manufacturers Heavier-than-air (fixed wing) Type"V"
Beech Aircraft Company, Wichita, Ivans. Douglas Aircraft Co., Inc., Santa Monica Plant, Santa Monica, Calif. Douglas Aircraft Co., Inc., El Segundo Plant, El Segundo, Calif. Cessna Aircraft Corp., Wichita, Kans. Grumman Aircraft Engineering Corp., Bethpage, Long Island, N. Y. McDonnell Aircraft Corporation, St. Louis, Mo. (formerly "D"). North American Aviation Inc., Los Angeles, Calif. Glenn L. Martin Company, Baltimore, Md. Lockheed Aircraft Corp. (Factory "B"), Burbank, Calif. Fairchild Engine & Airplane Corp. (Fairchild Aircraft Division), Hagerstown, Md. Chance Vought Aircraft Division, United Aircraft Corp., Dallas, Tex. Lockheed Aircraft Corp. (Factory "A") (formerly Vega), Burbank, Calif. Consolidated-Vultee Aircraft Corp. (San Diego Division), San Diego, Calif. Inactive
Boeing Aircraft Company, Seattle, Wash. Boeing Aircraft of Canada Ltd., Vancouver, B. C. Curtiss-Wright Corp., Columbus, Ohio. Fairchild Aircraft Ltd., Longueuil, Quebec. Goodyear Aircraft Corp., Akron, Ohio. Columbia Aircraft Corp., Valley Stream, Long Island, N. Y. General Motors Corp. (Eastern Aircraft, Trenton Division), Trenton, N. J. Naval Aircraft Factory, NAMC, Philadelphia, Pa. Interstate Aircraft & Engineering Corp., El Segundo, Calif. Consolidated-Vultee Aircraft Corp. (Stinson Division), Wayne, Mich. (b) Heavier-than-air (rotary wing) Type"H" McDonnell Aircraft Corp., St. Louis, Mo. (formerly "D"). H Kaman Aircraft Corp., Windsor Locks, Conn. K Bell Aircraft Corp, Buffalo, N. Y. L Piasecki Helicopter Corp., Morton, Pa. P Sikorsky Aircraft, Div., of United Aircraft Corp., Bridgeport, Conn. S United Helicopters, Inc. (Hiller Aircraft Co.), Palo Alto, Calif. E McCulloch Motor Corp., Los Angeles, Calif. — (c) Pilotless target drones Type "K" Globe Corp., (Aircraft Division) Joliet, 111. G Glenn L. Martin Co., Baltimore, Md. M Radioplane Company, Van Nuys, Calif, (formerly "D"). R Chance Vought Aircraft Division, UAC, Dallas, Texas. U (d) Guided Missiles Type "M" and Test Vehicles Type "TV" Manufacturer's letter is not used in designation of guided missiles or test vehicles. (e) Lighter-than-air Type "Z" Goodyear Aircraft Corp., Akron, Ohio (Manufacturer's letter is not used in designation of airships). 4. The manufacturer's letter in model designations shall be assigned only to companies designing aircraft. Aircraft manufactured by companies other than the designer shall carry the designation of the original designer. B B C F G L M N R Y
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
5. Prefix letter—A prefix letter shall be used to denote the 'development status of a given aircraft. The letter "X" is used to denote that the aircraft is experimental. This letter is dropped from the desig nation when the aircraft is placed in a production status. 6. Suffix letter—A suffix letter shall be used only when an aircraft is modified for an additional or special mission. Suffix letters shall be assigned only from the list below and for the purpose listed. This letter' indicates that the modifications are of a permanent nature and limit or augment the primary mission accordingly. suffix Purpose suffix Purpose A Amphibious version N All-weather operating version B Special armament version P Photographic version C Carrier operation version (of non-carrier aircraft) Q Countermeasures version D Drone control version (controlling aircraft) R Support/transport version E Special Electronics version S Submarine search and attack G Search and rescue version T Training version H Hospital version U Utility version K Target drone version (controlled aircraft) W Airborne early warning version L Winterized version Z Administrative version 7. Model designations for piloted aircraft and pilotless target drones shall be made as follows: (a) Prefix letter (1) "X" is used to denote experimental model when applicable. (b) Type letter (1) "V" is omitted for fixed wing heavier-than-air craft. (2) "H," "K," and "Z" are used as applicable. (c) Class letter Only one class (mission) letter shall be used for each model designation. (d) Design number The numeral following the class letter indicates the order number of the designer's air craft in the same class, except that for the first design, the numeral "1" shall be omitted. (e) Designer's letter The letter assigned to the designer is taken from the authorized list contained herein. (f) Modification number The numeral following the dash after the designer's letter indicates the modification of the model. The numeral "1" indicates the first model of the series and succeeding numerals indicate the first modification, second modification, etc. (g) Suffix letter A suffix letter selected from the authorized list herein indicates added or special mission. (h) Suffix number A suffix number may be added after the suffix letter when an aircraft configuration is modernized with different equipment without changing its special mission. The numeral "1" indicates the first configuration and succeeding numerals indicate second, third, configuration, etc., except that for the first configuration the numeral "1" shall be omitted. 8. The following are typical examples of designations of piloted aircraft in accordance with the preceding. (a) XF8F-2N -A.—————————————— r ————————————o——— 1
EXPERIMENTAL
1
CLASS (FIGHTER)
-
(b) XHRP-1 X 1 EXPERIMENTAL
SUPPLEMENT NO. 2 JUNE 1951
TT
I TYPE (HELICOPTER)
1
EIGHTH DESIGN
1
1 1 FIRST DESIGNER SUFFIX (GRUMMAN) MODIFICATION (ALL-WEATHER VERSION) T?
I CLASS (TRANSPORT)
P 1 DESIGNER (PIASECKI)
1 I FIRST MODEL OF SERIES FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
9. Pilotless Target Drones (non-man-carrying) are aircraft in which no provision has been made for a human pilot. 10. Pilotless Aircraft Target Drones (man-carrying) are conventional aircraft specially equipped for operation by remote control and intended for use as a pilotless aircraft aerial target. 11. The following is an example of a designation of a pilotless aircraft aerial target, (a) XKD2R-2 X——————————KD————__———__2—————————————R———————————2 EXPERIMENTAL
TARGET DRONES
SECOND DESIGN
DESIGNER (RADIOPLANE)
FIRST MODIFICATION
12. Model designations for guided missiles shall be determined as follows. (a) Prefix letter (1) "X" is used to denote experimental models. (2) "Y" is used to denote service test models. (3) "Z" is used to denote obsolete models. (b) Class letters Two letter combinations of three letters—A (air), S(surface) and U(underwater) in which the first letter denotes the origin and the second letter denotes the objective of the missile. (c) Type letter "M" after the class letters indicates "Missile." Examples: AAM—Air-to-Air Missile SSM —Surface-to-Surface Missile ASM—Air-to-Surface Missile SUM—Surface-to-underwater Missile AUM—Air-to-Underwater Missile UAM—Underwater-to-Air Missile SAM —Surface-to-Air Missile USM —Underwater-to-Surface Missile (d) Service letter Each basic designation shall be followed by a letter to indicate cognizant Service—"A" Air Force, "G" Army, "N" Navy. Note: After approval for joint use, the service letter shall be dropped and the desig nation preceded by "ANG." (e) Design number The service letter shall be followed by a number to indicate the design number. (f) Modification letter The model number shall be followed by a modification letter, "a" indicates first modifica tion, "b" indicates second modification, etc. (g) Designer's letter Not used in designation of guided missiles, (h) Prefix letters "M" prefixed to a conventional aircraft designation indicates "Missile Aircraft." "D" prefixed to a conventional aircraft designation indicates "Director Aircraft." Note: When conventional aircraft are changed to guided missiles or director control missiles, the appropriate letter shall be prefixed instead of suffixed, (i) Popular name Popular names are assigned to a guided missile when a particular missile enters the development phase. The names will, in general, conform to the following: AAM—Winged Creatures SSM —Astronomical Terms of Bodies ASM—Birds of Prey Targets—Game Birds SAM—Mythological Terms 13. The following is a typical sample of designation of a guided missile in accordance with the above. SUPPLEMENT NO. 2 JUNE 1951
FM 30^-30 OPNAV 32P-I200/2 AFM 50-40B
(a) AAM-N-2b • A- -
I
.£1— " •••' "
NAVY
MISSILE
AIR
R
SECOND DESIGN
SEC MODIF]
14. When a guided missile is used as a Test Vehicle, it shall be designated "TV," followed by service letter, design number, and modification letter and prefixed with one of the following class letters indicating the type of testing: (a) Prefix letters: (3) "L"—Launching. (1) "C"—Control. (4) "R"—Research (includes high-altitude rockets). (2) "P"—Propulsion. (b) The CTV-N-2c is used as an example in the following diagram. C————————————TV————————————N—————————————2———————————c
NAVY
TEST VEHICLE
CLASS CONTROL
SECOND DESIGN
THIRD MODIFICATION
15. Model designations for lighter-than-air craft are made up as follows: (a) Prefix letter. "X" is used to denote experimental model (b) Type letter. "Z" is used to denote lighter-than-air. (c) Class (Mission) letter. Only one mission letter shall be used in each designation. (d) Design number. The numeral following the class letter indicates the major modification or design number for that class, except that number "1" is not used. (e) Car design. A letter following the class letter indicates the symbol of the car for the airship in that class. (f) Modification number. The numeral following the dash after the Design letter when used, in dicates the modification of the model. The numeral "l" indicates the first model of the series and succeeding numerals indicate first modification, second modification, etc. 16. The following is an example of a designation of a lighter-than-air craft in accordance with the preceding (a) XZP2N-2 X———————————Z———————————P——————————2——————————N ———————————2
EXPERIMENTAL
LIGHTER-THANAIR
SECOND DESIGN
PATROL CLASS
CAR DESIGN
FIRST MINOR MODIFICATION
17. Designations for lighter-than-air aircraft envelopes are determined as follows: (d) Type of fabric. (a) Maufacturer's identification letter. (e) Number of plies in fabric construction. (b) Class (Mission) letter. (f) Type of fabric coating. (c) Volume in 1,000's of cubic feet. 18. The following is an example of a designation of an envelope for a lighter-than-air aircraft: G —————————K———————— 527 ——————————F * —————————— 2 ——————————— N Designer (Goodyear Aircraft Corp.)
Class (K, N)
1,000's cu. ft. (527,000 cu. ft.)
... Type of coating Number of plies Type of fabric (Neoprene (2-ply con(Fortisan) coating) struction) Rayon
19. The following abbreviations are used in the list of characteristics of Naval Aircraft: —Delivery of first airplane. Date — Monoplane. M —Landplane. Land — Tractor Biplane. TB — Equipped with arresting gear. Carrier Monoplane. — Tractor TM Equipped with catapulting. — Catapult Conv't — Convertible. •Types of fabric F — Fortisan rayon. C— Cotton.
SUPPLEMENT NO. 5 JUNE 1954
9
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
U. S. AIRCRAFT NAMES AND DESIGNATIONS The aircraft listed in this tabulation include operational types, experimental types, and some older reserve types employed by the Army, the Air Force, the Navy and Marine Corps, and the Coast Guard. The arrangement is in keeping with the Uniform Classification of USAF, NAVY, and FOREIGN Aircraft. TYPE
BOMBER Heavy Medium
Patrol
AIR FORCE
B-52 YB-60 B-29 B-47 YB-^9 B-50 B-34, -37
OA-10 (PBY-5A)
Search & Attack
B-17 B-25 B-26 B-45 XB-51 B-57A XB-58 ZA-25
B-66
Stratofortress Superfortress Stratojet Flying Wing Superbomber Ventura PV-1, 3 PV-2 Harpoon Neptune P2V P4Y-1 (PB4Y-1) Liberator P4Y-2 (PB4Y-2) Privateer Mercator P4M Catalina PBY Mariner PBM P5M, -2 Marlin Seamaster XP6M Tradewind XP5Y (R3Y) WV-1 Constellation WV-2 Super-Constellation PB-1 Fortress PBJ Mitchell Invader JD Tornado
P2B
Canberra SB2C TBF TBM AM AD AF AJ XA2J A2D A3D (P2D) XA4D XS2F (TF) AU (F4U) A2U (F7U)
wu
FIGHTER
F-47 F-51 F-61
Hustler Helldiver Avenger Avenger Mauler Skyraider Guardian Savage Skyshark Skywarrior Skyhawk Corsair Cutlass Thunderbolt Mustang Black Widow
F2T-1
U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
NAME
B-36
B-24
Light
NAVY and MARINE CORPS
10
ORIGINAL
MANUFACTURER
Convair Boeing Convair Boeing Boeing Northrop Boeing Lockheed Lockheed Lockheed Convair Convair Martin Convair Martin Martin Martin Convair Lockheed Lockheed Boeing North American Douglas North American Martin Martin/English Electric Convair Curtiss Grumman General Motors Martin Douglas Grumman North American North American Douglas Douglas Douglas Grumman Chance-Vought Chance-Vought Chance-Vought Republic North American Northrop
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TYPE
FIGHTER— (Con.)
AIR FORCE
F-80B F-82 F-84 F-84F F-86 F-86D F-88 F-89 XF-90 XF-91 XF-92 XF-93 F-94 F-100 XF-101 XF-102 XF-103 XF-104 XF-105
F-86 (Sabre)
RECONNAISSANCE
NAVY and MARINE CORPS
TV-1 (TO-1)
Shooting Star Twin Mustang Thunderj et Thunderstreak FJ-2, -3 (Fury) Sabre Sabre Voodoo Scorpion Thunderceptor Starfire Super Sabre Voodoo Machete
F4U (AU) FG F6F F7F F8F FH F2H F2H-3 XF3H F3D F3D-3 F4D XF5D FJ FJ-2, -3 F6U F7U XF8U F9F F9F-6-7-8 F9F-9 XF10F FO XFY F2Y
RB-36 RB-50 RB-29 RB-45 RB-47 RB-52 RB-57A RB-66 YRB-49
Corsair Corsair Hellcat Tigercat Bearcat Phantom Banshee Banshee Demon Skyknight Skyknight Skyray Fury Fury Pirate Cutlass Panther Cougar Tiger Jaguar Sea-Dart Superbomber Superfortress Flying Cartographer Stratojet Stratofortress Canberra Skywarrior Flying Wing
U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
NAME
11
ORIGINAL MANUFACTURER
Lockheed North American Republic Republic North American North American McDonnell Northrop Lockheed Republic Convair North American Lockheed North American McDonnell Convair Republic Republic Republic Chance-Vought Chance-Vought Grumman Grumman Grumman McDonnell McDonnell McDonnell McDonnell Douglas Douglas Douglas Douglas North American North American Chance-Vought Chance-Vought Chance-Vought Grumman Grumman Grumman Grumman Lockheed Convair Convair Convair Boeing Boeing North American Boeing Boeing Martin Douglas Northrup FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TYPE
RECONNAISSANCE— (Continued)
AIR FORCE
YRB-66 RF-80 RF-84F RF-94
RF-101
RC-121C, -D TRANSPORT
C-45 C-46 C-47 C-47F C-53 C-54 C-60 C-61 C-64 C-69 C-74 C-82 C-87A, C C-97 XC-99 C-118B C-119 XC-120 C-121 C-121C YC-122 XC-123 C-124 (C-133) YC-125 XC-128 YC-130 C-131
TRAINER Advanced
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
NAVY and MARINE CORPS
C-132 T-6 T-7 T-ll T-19 T-28 T-29 T-33 F-80 TF-86 T-34 YT-35 T-36
NAME
Shooting Star Thunderflash Starfire
sc
Seahawk Constellation
JRB R5C R4D R4D-8 R4D-3 R5D R5V (R50) R6V (R6O) GK JA
RY-1, 3 R6D R4Q-1 R7V
R3Y (P5Y) JRM
Voyager /Expediter Commando Sky train Super DC-3 Skytrooper Skymaster Lodestar Constitution Forwarder Norseman Constellation Globemaster Packet Liberator Express Stratocruiser Liftmaster Packet Packet Constellation Super-Constellation Avitruc Avitruc Globemaster II Raider Mars Samaritan
RM SNJ SNB-2 SNB-1
Texan Navigator Kansas Reliant
TV-2 (TO-2) TV-1 (TO-1)
Shooting Star Shooting Star Sabre Mentor Buckaroo
12
ORIGINAL MANUFACTURER
Douglas Lockheed Republic Lockheed McDonnell Curtiss Lockheed Beechcraft Curtiss Douglas Douglas Douglas Douglas Lockheed Lockheed Fairchild Noorduyn Lockheed Douglas Fairchild Convair Boeing Convair Douglas Fairchild Fairchild Lockheed Lockheed Chase Chase Douglas Convair Northrop Martin Fairchild Lockheed Convair Martin Douglas North American Beechcraft Beechcraft Convair North American Convair Lockheed Lockheed North American Beechcraft Tempco Beechcraft
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TYPE
ARMY
Primary & Basic
AIR FORCE
XT-37 TB-25 TB-50 TB-47 T-13, 17 T-19, 3 XT-37
NAVY and MARINE CORPS
NAME
Mitchell Superbomber Stratojet Kaydet Cornell Yellow Peril
Cessna North American Boeing Boeing Boeing Fairchild Naval A/C Factory Cessna Grumman
JR2F/UF PBY P2B
Albatross Catalina Superfortress
Grumman Consolidated Vultee Boeing
NE OY
Grasshopper Sentinel
Piper Consolidated Vultee Consolidated Vultee Aeronca Ryan Cessna de Havilland Piper Beechcraft Helio McDonnell Aero Cessna Beechcraft Beechcraft Grumman Grumman Grumman Grumman Douglas
N2S N3N TF (S2F)
SEARCH AND RESCUE
SA-16A A-10 SB-29 L-4 L-5 L-13 L-16
LIAISON AND UTILITY L-17B L-19 L-20 L-23 YL-26 LC-126
HELICOPTER H-13
H-19 H-21 H-23 H-25
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
L-20 L-21
Champion Navion
OE
Beaver Twin-Bonanza
L-24 XL-25
Aero Comdr
C-43 C-45 NA-12 A-14 OA-9, -13 SA-16A B-26
CB JRB J2F J4F JRF UF/JR2F JD
H-4B H-5
HNS H03S YH-12 HTL
H-13 XH-15 XH-16 XH-17 YH-18 H-19 XH-20 H-21 YH-22 H-23
ORIGINAL MANUFACTURER
Traveler Voyager Duck Widgeon Goose Albatross Invader
Sikorsky Sikorsky Bell Bell Bell Piasecki Hughes Sikorsky Sikorsky
HO5S HRS (HO4S Version) . HRP-1, -2 HTK HTE HUP HOK XHJS XHSL
13
Rescuer Explorer
McDonnell Piasecki Kaman Killer Piasecki Kaman Sikorsky Bell
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TYPE
ARMY
HELICOPTER— Continued H-34 H-37
AIR FORCE
XH-26 XH-28 XH-32
AIRSHIPS
MISCELLANEOUS
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
NAVY and MARINE CORPS
NAME
ORIGINAL MANUFACTURER
HOE XHSS HR2S
American Helicopter Hughes Hiller Sikorsky Sikorsky
ZPK (S/R & Utility) ZP2K (ZPK Modernized) ZP3K (Improved ASW gear) ZP4K (Latest ASW configuration) XZP5K ZPM (Long range) ZP2M (ZPM Modernized) ZPN (Long endur. A/S/W) ZP2N (ZPN develop.) ZTG (Training) XZTL (Training)
Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear Goodyear
Superfortress Stratofreighter Globemaster II
KB-29 KC-97 KC-124 YG-18 XV-1 (XL-25) XV-3
13A
Boeing Boeing Douglas Chase McDonnell Bell
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
FOREIGN AIRCRAFT MANUFACTURERS "Nord"_ ________ Societ^ Nationale de Construc tion A6ronautiques du Nord (S. N. C. A. N.). "Rey".--__-__-_ Societe des Avions Fran§ois Rey. "S. C. A. N.".... SocietS de Constructions Aero Navales de Port-Neuf. "S. E. C. A. N."_ Societe1 d'Etudes et de Construc tions Aero-Navales. "Sevimia" ______ Victor Minie Aeronautique. "S. I. P. A." .__ Societe Industrielle pour l'Ae>onautique. "Starck" _ _-__-._ Avions Andre" Starck. Societe Nationale de Construc Sud-Est tions Ae'ronautiques de SudEst (S. N. C. A. S. E.). Societe" National de Construc Sud-Ouesf tions Aeronautiques de SudOuest (S. N. C. A. S. 0.).
ARGENTINA "I. Ae."_ _______ Military Aircraft Factory, Insti tute Aerotecnico. "Petrolini" ______ Petrolini Hermanos, Societa Ano nima Industrial Y Commercial.
BELGIUM "Avions Fairey"_ Avions Fairey S. A. "SABCA". ______ Societe" Anonyme Beige de Con structions Ae'ronautiques.
BRAZIL "C. N. N. A."__ . Companhia Nacional de Navegacao ASrea. tl~[ T* T1 " _ Institute de Pesguisas Techologicas. (Technical Research).
CZECHOSLOVAKIA
ITALY
Aircraft factories in Czechoslovakia, one of the few countries in the Soviet block possessing a real air craft industry, are mostly automobile firms which are characterized by their geographical location (Cakovice Works, Chosen Works, Otrokovice Works, Karlin Works, etc.). Czechoslovakian aircraft types have retained their traditional family names, which are reminis cent of their capitalist predecessors; Areo^__ Marz, Avia___ Praga, Letov__. Zlin.
"Aerauto".
" Augusta". "Alaparma". "Ambrosini" "Breda" __ C. V. V.'
FRANCE "Adam". "Arsenal 1 "Bearn"_ "Boisavia" "Breguet" "Brochet"-____ "C. F. A." ___ "Dassault"_.__ "Fouga"______ "Hurel-Dubois' "J. D. M."____ "Jodel". ______ "Latecoere".__
"G. C. A.'
Establissements Ae'ronautiques R. Adam. Arsenal de L'Aeronautique. Constructions Ae'ronautiques du Beam. Avions Boisavia. Societ6 Anonyme des Avions Louis Breguet. Avions Maurice Brochet. Compagnie Franchise d'Aviation. Avions Marcel D assault. Establissements Fouga et Cie. Avions Hurel-Dubois. Avions J. D. M. Societe des Avions Jodel. Societe Industrielle d'Aviation Late'coere. Ren6 Leduc Fils. Instruments de Precision M. D. G. Avions Max Holste. Societ6 Millet-Lagarde.
"Macchi". "Nardi"_. "Piaggio"-__-_. "S. A. C. A."___ "Saiman"_ _____ "Siai-Marchetti "Viberti" ___
GREAT BRITAIN "Airspeed"..---- Airspeed Division CF The de Havilland Aircraft Co., Ltd. Sir W. G. Armstrong Whitworth "Armstrong Aircraft, Ltd. Whitworth" "Auster"- _______ Auster Aircraft, Ltd. "Avro".-------- A. V. Roe & Co., Ltd. Blackburn & General Aircraft, "Blackburn Ltd. & General" "Boulton Paul".- Boulton Paul Aircraft, Ltd. "Bristol" _--__. The Bristol Aeroplane Co., Ltd.
"Leduc"________ "M. D. G."______ "Max Holste"___ "Millet-Lagarde". "Morane-Saulnier"__________ Aeroplanes Morane-Saulnier.
SUPPLEMENT NO. 5 JUNE 1954
Aerauto S. A., Costruzioni Aeronautiche E Meccaniche. Costruzioni Aeronautiche Giovanni Augusta. Societa Aeroplani Livio Agostini. Societa Aeronautica Italiana, Ing. A. Ambrosini & C. Societa Italiana Ernesto Breda. Institute di Aeronautica, Politecnico di Milaiio. Societa Per Azioni Fiat. Gruppo Costruzioni Aeronau tiche. Aeronautica Macchi S. A. Nardi S. A. Per Costruzioni Aeronautiche. Piaggio & C., Societa Per Azioni. Societa Per Azioni Costruzioni Aeronavali. Societa Anonima Industrie Mecc aniche Aeronautiche Navali. Societa Per Azioni Siai-Marchetti. Ali Viberti S. p. A.
14
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
Security Information
"Chilton"_ _____ "Chrislea"______ "de Havilland"_. "English Electric"------_-_ "Fairey" ________ "Gloster" ______ "Handley Page". "Hawker"______ "Hawker Sidde"Heston"______ "Martin-Baker Percival"_____ Scottish
Avia-
"Slingsby"_____ "Supermarine"__ Tickers". 'Westland' 'Common wealth".. "de Havilland"_ "Fairey-Clyde"_
"Avro"__ "Boeing". 'C. C. F." "Canadair"_ "Cancargo"_ : 'de Havillahd' ; 'Found"_____. "National Research Council,^
FOREIGN AIRCRAFT MANUFACTURERS—(Continued) NEW ZEALAND Chilton Aircraft Co., Ltd. Chrislea Aircraft Co., Ltd. "de Havilland".. The de Havilland Aircraft Co., The de Havilland Aircraft Co., Ltd. of New Zealand. Ltd. NETHERLANDS The English Electric Co., Ltd. "Fokker"_____ The N. V. Nederlandsche VliegThe Fairey Aviation Co., Ltd. tuigen-Fabriek Fokker. Folland Aircraft, Ltd. NORWAY The Gloster Aircraft Co., Ltd. "Honningstad".. Norsk Flyindustri A/S. Handley Page, Ltd. "Wideroe"____ Wideroes Flyveselskap OG PoHawker Aircraft, Ltd. larfly A/S. Hawker Siddeley Group, Ltd. U. S. S. R. The Heston Aircraft Co., Ltd. The Russian State Aeronautical Industry comes Martin-Baker Aircraft Co., Ltd. under the direct jurisdiction of the Commissariat for Percival Aircraft, Ltd. Aircraft Industries and all aircraft production Saunders-Roe, Ltd. is undertaken in State factories. (See U. S. S. R. section.) Scottish Aviation, Ltd. The technical organization is shared by three Short Bros. & Harland, Ltd. establishments, the Z. A. G. I. (Central Aero HySlingsby Sailplanes, Ltd. dronamics Institute) which is in charge of all air Supermarine Aviation Works, craft development; the Z. A. I. M., which does the Div. Vickers-Armstrongs, Ltd. same for aircraft engines; and the V. I. A. M., which Vickers-Armstrongs, Ltd. conducts and directs research on materials. Westland Aircraft, Ltd. AUSTRALIA SPAIN "C. A. S. A."___ Construcciones Aeronauticas S.
Commonwealth Aircraft Corp. PTY., Ltd. de Havilland Aircraft Proprie tary, Ltd. The Fairey-Clyde Aviation Co. Proprietary, Ltd. CANADA A. V. Roe Canada, Ltd. • Boeing Aircraft of Canada Ltd. (inactive). Canadian Car & Foundry Co,, Ltd. (acquired Noorduym). Canadair Ltd. Cancargo Aircraft Manufacturing Co., Ltd. The de Havilland Aircraft of Canada, Ltd. Found Brothers Aviation Co., Ltd.
A.
"Hispano"_____ La Hispano Aviacion S. A. "I. P."___-----__ Iberia. "Inta"_--_____-_ Institute Nacional de tecnia Aeronautica.
SWEDEN "Kungl. Flygforvaltnigens Flygverkstad" _ Royal Air Board Aircraft Fac tory. "SAAB". _._---. Svenska Aeroplan A. B. "Skandinaviska AeroA. B---__ Scandinavian Airways, Ltd. SWITZERLAND "Fabrique Federale • D'Aions" ______ Federal Aircraft Factory. "Flug & Fahrzeugwerke"________ Flug & Fahrzeugwerke A. G. "Pilatus"_____- Pilatus Flugzeugwerke A. G.
Division of Mechanical Engineer ing.
TURKEY "Nuri Demirag". NuriDemiragTayyare Fabrikasi. "T. H. K."______ Turk Hava Kurumu Ucak Fab rikasi.
"Northwest Industries" ____ Northwest Industries, Ltd. INDIA "Hindustan".... _ Hindustan Aircraft Ltd.
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
SUPPLEMENT NO. 4 JUNE 1953 15
AIRCRAFT ENGINES
RESTRICTED Security Information
It is advantageous to have a knowledge of the various kinds of aircraft engines and, needless to say, such information is of great value in recognition. There are two main types of aircraft engines in service today. They are the reciprocating engine and the gas turbine. Keciprocating engines, for our purposes, may be sub-divided into two main classes, radial and in-line. The gas turbines may also be sub-divided into two classes, propeller turbines (turboprops) and pure jets (turbojets).
RECIPROCATING ENGINES Air-cooled Radials In World War II the ra dial was the prime mover of our aviation and it is still the most common type seen. The term radial is applied because of the cylinder ar rangement which is like the spokes of a wheel, they catch the airflow and are thus cooled. In earlier days these engines were com pletely uncowled for cooling purposes and were easily recognizable. They have, naturally, a wider frontal area than other engines, but today the radial engine is enclosed within a cylindrical covering, which usually has an open front and through which air enters to cool the cylinders. We usually asso ciate radial engines with a certain bluntness of entry, though the careful streamlining of cowlings and the shaping of airscrew spinners has produced some elegant outer shapes for them and they are no less efficient than the in-line type we mention later. Even so, it is usually best to distinguish a radial by its shape.
Air-cooled In-lines These engines have their cylinders ar ranged one behind the other in one or more rows. The air-cooled type as em ployed in this country, is usually well under the 500 h. p. class and is fitted to the lighter types of air craft, such as the Grasshopper. Most often the engine is inverted, thus putting the crank-case above the cylinders. In proportion the engine tends to be deep and narrow, having the spinner high up and a large gap or duct in the front cowling.
Liquid-cooled In-lines The usual form is two rows of cylinders making a "V" though there are other arSUPPLEMENT NO. 4 JUNE 1953
rangements such as the "H" type (so called be cause its banks of cylinders form an "H"), though they are not common. These engines lend them selves very well to good streamlined cowlings and by using a pointed spinner on the propeller a good aerodynamic shape to the whole engine can be formed. The Allison in-line used in the World War II Cobras is a good example.
GAS TURBINES Propeller Turbines Or, as they are familiarly called, turboprops, are off shoots of the turbojet. Instead of using jet-reaction as a means of propulsion, the hot gases are directed on to a turbine wheel which is connected to a pro peller. The advantages of this type of engine are that it can be easily installed, presents less drag with a small frontal area and -is easy to maintain. The present disadvantage is its high fuel consump tion, though there seems to be the possibility of improvement in this respect as the engine is de veloped in service. There has been a development called the com pounded piston engine, that is to say a normal pis ton engine which makes full use of the exhaust gas energy to drive a turbine or turbines which are geared to the engine crankshaft. An example of a turboprop installation is that of the British Rolls-Royce Dart as fitted in the Vickers Viscount. The U. S. Navy's XP5Y is also fitted with turboprop as is the new XA2D, Skyshark. Both of these Navy aircraft are fitted with Allison T-40 twin turboprop units. Because much of the turboprop engine is usually "buried" inside the airplane's structure, the en gine unit is less obvious to the eye. The turboprop engine must employ a propeller to turn its power into thrust which means that there will always be some sort of "stem" for the propellers. This, plus the exhaust stack, from a recognition point of view, is almost as useful as the engine itself. FM 30-30
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There are two types of compressors used in turboprop, and turbojet engines: one is the axialflow type and the other the centrifugal-flow type. Shown in the diagram is a centrifugal-flow turbo prop engine. The beauty of the axial-flow type, however, is that it provides an aircraft with a very slim over-all body form.
pipe, it can be burned to further heat and expand exhaust gases beyond what is possible in the en gine proper. Such a tailpipe arrangement is called an afterburner, and since the velocity of its jet exhaust is greater, the assembly provides a con siderable boost in thrust over that of the normal turbojet. Although an afterburner's installed weight is low, its fuel economy is poor; hence it is used only for such purposes as assist in take-off and climb. At other times it is extinguished, and basic engine runs as a turbojet. The annotated illustration is that of a centrifugal-flow turbojet with an afterburner attached.
Pure Jets or Turbojets
The principles of op eration and construc tion of the turbojet are simple, and it can be tailored into an air plane design almost anywhere. We find them "buried" inside wings, or set out on long slender "stalks" beneath the wing; they are tucked into wing roots or attached to wing tips; they are paired, tripled, and even quadrupled, in one nacelle. In fact, an airplane designer has so much license in their positioning, that a race of airplanes is being born in which the variety of shapes intro duced has made them much more interesting, and in many ways easier to recognize. The engine shown in the illustration belongs to the centrifugal turbojet class.
Engine Details All types of aircraft engines must "breathe," "exhaust" and "keep cool." To do this effectively they are usually designed with a quota of scoops, ducts, radiators, and exhaust systems of one kind or another. There are in fact so many varieties of each of these items that it is impossible to detail them all. All of them are helpful in recognition (at some time or another), some more than others. What To Look For The points to observe specially about engines which may be visible on an airplane are: shape, type, position, and grouping. Shape gives a clue to type. Positions are at the nose of the fuselage, on the top of a pylon, .on the back of, of slung be neath, the fuselage; they sit upon, are sunk into, or hang on the wings (underslung) or are sus pended from them on "stalks." Engines may be set close together or well spaced out along the wing. They may be set out singly or in groups. Sometimes they extend only a short distance to ward the length of the nose of the fuselage, some times in line with it, and occasionally beyond it.
Turbojet With Afterburner
The exhaust from a turbojet contains much unburned oxygen, and if fuel is admitted to the tail
PROPULSION The propeller and jet engine are very closely re lated, producing thrust by the same means—the acceleration of a quantity (mass) of air. As the air stream enters the propeller disc the blades act upon the air particles so that their velocity is greater behind the propeller than ahead. Each particle has weight and the blades must exert a measurable force to accelerate this weight from the slow to the faster speed. The particles recip rocate by pushing against the blade in the direc tion opposite to that of the air stream with a force equal to that received from the blade. Add all of these individual pushes together and you have thrust acting on the propeller, which, being part of this airplane, causes the whole system to move.
The propeller generates its thrust by acting on a large quantity of air giving it a relatively small acceleration. The j'et engine, whether ramjet or gas turbine does exactly the same thing. Air is introduced into the engine by some means and is then accelerated so that it returns to the air stream at a higher velocity than at the start of the opera tion. The acceleration of this quantity of air pro duces thrust in the same essential manner as with the propeller to achieve the same thrust, the jet must impart a larger measure of acceleration to a smaller quantity of air. The idea that thrust is produced by the jet stream pushing against the outside air is 100 per cent wrong. Propulsive force is created within FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951
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the engine as the air stream is accelerated and the thrust acts upon the internal engine structure. If the jet could exhaust into a vacuum, more thrust would result as the exhaust flow would not be im peded by the atmosphere cluttering up the exit. All aircraft jet engines, must perform three es sential functions: 1. Store or introduce air (oxygen) intoasuit. ably shaped chamber. 2. Add energy to the air. This is accom plished by burning fuel. 3. Expand and expel the air from the engine exit at a higher velocity than at the start of the operation. This acceleration produces thrust in the opposite direction of airflow. The same idea is obtained if a rubber balloon is blown up, and sud denly released, the resultant jet-reaction drives it through the air. There is an enormous waste of energy by the "slip" of the jet efflux at low speeds of aircraft, and it is this fact that makes the jet engine so ineffi cient. . Its maximum efficiency is reached at high altitudes where rarified air provides little resist ance and permits high speed passage of the air craft, and, at the same time, enables the jet engine to gather sufficient weight of air to keep itself going. At a low altitude the jet engine is wasteful, for there is more than enough air .for it to swallow, and the speed of the airplane is held back by the relative thickness of the air, and that is by drag. This results in a high speed jet for a low forward speed to the aircraft. Generally speaking the jet engine is most efficient when the aircraft's for ward speed is half the speed of the jet stream. Say, 500 knot air speed for a 1,000 knot jet stream. On the other hand, the propeller works best in the relatively thick atmosphere of low altitude. The higher the propeller is taken the less efficient it becomes, until at extreme altitudes there is not enough air on which it can grip and the engine turns over at high speed, uses a lot of fuel and gets nowhere. Thus, with propeller efficiency greatest at low altitudes, jet efficiency greatest at high altitudes, to get the best of both worlds the turboprop, at least for the present, is the more efficient. The propeller is mounted on the same shaft as the turbine. The power of jet engines is measured in pounds of static thrust. In a broad sense this means that
a jet engine of 5,000 pounds static thrust could support that weight, suspended in a well, and at tached to it, by means of a pulley and wheel. Very high speeds are reached by turbines and compressors, and 17,000 revolutions per minute are common. At these terrific, almost inconceiv able, speeds the tensile stresses on the blades of a turbine reach something like 10 tons per square inch, and blade tips often travel at over 900 knots. The turbine of the de Havilland Ghost turbojet, which is fitted in the Vampire, delivers a static thrust of 5,000 pounds. This is equivalent to 8,000 true horsepower at 525 knots at sea level and cor responding to 12,000 hp. from a normal recipro cating engine with a propeller efficiency of 66 per cent. Jet stream velocities reach speeds of more than 880 knots, and, in athodyds, speeds of 2,500 to 3,500 knots are possible. Turbine blades have not only to withstand these high speeds but also very high gas temperatures, which can reach very nearly 1,000 degrees centi grade. For this reason they have to be made very tough and are always very short. The tail cone also serves the purpose of preventing turbulence behind the turbine; in fact, it protects the turbine wheel. A fighter traveling at 525 knots uses over a ton of air every second. In addition, the great speed of the jet airplane is in itself a cause of high fuel consumption because of the large resistance that has to be overcome. Because there is no way of measuring the work done by a jet of hot gases, it is not possible to talk of the horsepower of a jet engine. Instead, the thrust (in pounds) is measured, that is, the direct reaction of the escaping gases against the body of the engine. This thrust varies according to the conditions when it is measured. If the engine is held stationary on the ground it is called static thrust, and it is measured by a kind of weighing machine that records the efforts of the engine to escape from its jet—measuring the blast of the jet itself would not give you the thrust. If the engine is in flight it is reacting away from its jet and the efficiency improves, so the thrust is less. This seems queer; but it will be clear if you remember that 100 percent efficiency is reached with engine and gases going in opposite directions at equal speeds—when, of course, there can be no pressure, that is thrust, between them. Therefore, the thrust developed by an engine is always given as so many pounds at a certain speed and height, since the air resistance due to the velocity and alti tude affects the reaction between the engine and the jet. FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO 2 JUNE 1951
18
THE DESIGNATION OF SERVICE AIRCRAFT ENGINES
The type numerals are arbitrary, and do not rep resent any characteristics of the units involved. Even numbers will be assigned by the Bureau of Aeronautics to types approved by the Navy, and odd numbers will be assigned by the Air Materiel Command to types approved by the Air Force. The second part of the designation will consist of dash letter (s) symbol indicating the manufac turer, as follows :
Reciprocating Engines
The Air Force and Navy systems for the desig nation of aircraft engines are similar. All serv ice engines are designated by a letter indicating their basic type. The prefix letters "X" and "Y" may be used to signify experimental and service test of restricted service engines, respectively. Types Letter symbols R——_.———— _————. Radial V——————————— Upright Vee L...__——_———————— Line 0———————————-—_-. Opposed
Letter symbol Manufacturer's name AJ Aerojet Engineering Corp...—.———— A Allison Div., General Motors Corp.—— Continental Aviation and Engineer T ing Corp.—.———————————— FF Fredric Flader Co.----------GE General Electric Co.———-—-——— GA Globe Aircraft Corp.---------GN G. M. Giannini & Co..—————— MA Marquardt Aircraft Co.—————— MD McDonnell Aircraft Corp.—————— NH Northrop Hendy Co..————————— Pratt & Whitney Aircraft Div., United P Aircraft Corp...—————————— RP Radio Plane Co.—————————— Ranger Aircraft Engine Div., FairR child Engineering & Airplane Corp. S Solar Aircraft Co.———————— WE Westinghouse Electric Corp.———— Wright Aeronautical Corp., Div. CurW tiss-Wright Corp.——.—————
This is followed by the displacement of the engine in cubic inches to the nearest multiple of 5 and, finally, the Service model: R-1830-65, V-770-8, R-1820-56, R-2600-8. The final model number of engines ordered to an Air Force specification is always an odd number. Engines ordered by the Navy always carry even model numbers. How ever, under this system it is possible for a Navy airplane to be equipped with an engine originally contracted for by the Air Force with an Air Force Number. Such an engine will retain the Air Force designation. The last part of the designation may consist of a suffix letter together with the basic model number, indicating major design changes which do not affect performance, installa tion, or interchangeability of the complete engine in the airplane. When equipped with water in jection, the letter "W" is placed between the model number and the suffix letter. A hypothetical ex ample would be the V-1710-20WB: tenth Navy model, water injection, second major revision of the model. .
The third part of the designation will consist of a dash numeral, the model number. These model numbers will be assigned to jet engines as they are now applied to reciprocating aircraft en gines, that is, odd numbers for Air Force models and even numbers for Navy models. Air Force model numbers for each type of jet engine will begin with one and will continue with consecutive odd numbers. Navy model numbers for each type of jet engine will begin with two and will continue with consecutive even numbers. All even model numbers will be assigned by the Bureau of Aero nautics, including those applied to Air Force ap proved engine types. All odd numbers will be as signed by the Air Materiel Command, including those applied to Navy-approved engine types.
Turbine and Jet Engines
The first part of the designation shall consist of a letter (or letters) together with a number indicating the type of engine. Letter Types symbols J —- Turbojet (Gas Turbine Engine without External Propeller) T —. Turboprop (Gas Turbine Engine with External Propeller) PJ-. Pulsejet RJ— Ramjet The type numerals used in connection with the type letters will be assigned progressively by the Services and shall begin with the number 30 for the Navy and the number 31 for the Air Force.
A given engine design will have only one type and model designation for both Services. For ex ample, should the Navy desire to use an engine bearing Air Force type and model numbers, the Navy will use those numbers without change for FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
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19
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all designation purposes. Further, should the Air Force desire to use a Navy-approved type of en gine, but require minor production changes to the Navy model of that type, the Air Force shall use the Navy type designation and assign its own model designation, which will begin with one and will continue with consecutive odd numbers, to the modified engine regardless of the Navy model number.
(Wright Engine made by Gen eral Electric) First Navy Model of Third Air J35-GE-2 Force Turbojet Type (Made by General Electric) Second Air Force Model of Third J35-GE-3B Air Force Turbojet Type (Made by General Electric) (Second major revision of the model) Second Air Force Model of Third T34-P-3 Navy Turboprop Type (Made by Pratt & Whitney) Third Navy Model of Third Air RJ35-T-6 Force Ramjet Type (Made by Continental Motors) Fourth Air Force Model of PJ36-RP-7 Fourth Navy Pulsejet Type (Made by Radio Plane) First Navy Model of Third Navy XJ34-GA-2 Turbojet Type (Experimental Status) (Made by Globe Air craft) YRJ37-LA-2 First Navy Model of Fourth Air Force Ramjet Type (Re stricted Service Status) (Made by Lockheed Aircraft)
The letters "X" and "Y" may be used at the discretion of the Services for the purpose of sig nifying experimental and service test of restricted service engines, respectively. When used, such letters shall precede the designation arrangement described above. The following hypothetical examples illustrate the arrangement and significance of the subject designations: J30-A-2
First Navy Model of First Navy Turbojet Type (Made by Al ii son)
J31-W-1
First Air Force Model of First Air Force Turbojet Type (Made by Wright Aeronauti cal)
J31-GE-1
First Air Force Model of First Air Force Turbojet Type
INTERNATIONAL AIRCRAFT REGISTRATION SYMBOLS The second letter was in turn followed by a regis tration number. However, under the new require ments the regulation states that aircraft having other than a STANDARD airworthiness certificate shall display in print the appropriate airworthiness classification at each passenger, or cockpit entrance in a position so as to be readily visible to pas sengers or crew entering the aircraft; i. e., LIM ITED, RESTRICTED or EXPERIMENTAL. Letter symbols and licenses appear on both sides of the fuselage, and across both panels of upper and lower wing surfaces. The United States is an exception, applying the license only to both sides of the rudder and to the upper right and lower left wing surfaces. Russia uses URSS or its Russian equivalent, CCCP, followed by a number on fuselage and on both right and left wing panels.
All nations but the United States follow a regis tration system adopted at Versailles in 1919, whereby the nationality and registration marks of civil aircraft of countries which are members of the International Commission for Air Navigation (C. I. N. A.) consist of groups of five letters. Each nation is assigned a one- or two-letter registration symbol, the actual license of the airplane appearing as a combination of three letters with a two-letter national symbol, and four letter with a single-letter symbol (G-ABXY, CF-BEL). The United States uses the letter "N" as the national symbol followed by a registration number (N-13365). This prac tice supersedes the old identification marking sys tem which employed the letter "N" followed by an other letter which was either C for standard, L for limited, R for restricted or X for experimental. SUPPLEMENT NO. 2 JUNE 1951
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FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
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INTERNATIONAL CIVIL AIRCRAFT MARKINGS Japan——————————————————J *Afghanistan-—— ————-—---— Jordan (Hashemite Kingdom)———————.TJ Albania... ... —————————— ————— ————ZA Lebanon.....———————————————————LR Argentine Republic—— ————— ————— —LV *Liberia......-——-——-———————————LI Australia-.-.—----— ————— ————— ————— VH Austria.— ————— — —————— ————!— -—-OE Luxembourg...———————————————..LX Mexico.........-..................——............_XA, XB, XC Belgium & Colonies— —————— ————— -00 Monaco, Principality of————.———————CZ *Bolivia.... .—————————————— ~CP or CB Monte Carlo—..-...——————.——————MC Brazil.... ............. —— — - —— —— -— PP or PT Morocco....——————————..———————CN British Colonies & Protectorates with the Netherlands........—————————........__...PH exception that after the 3-letter comNetherlands Antilles————————————PJ bination following the National symbol Netherlands Surinam———————..........__.__-PZ there is another 3-letter combination Newfoundland———————.——...........—VO Bulgaria.- ————— ———————— ———-—LZ New Hebrides Condominium.—————.........—YJ Burma— ———---—-— ———-XY or XZ New Zealand..........._............_-„„—.._ZK, ZL, ZM Canada— .—————— -————-— ————— —-CF Nicaragua.————____—............—————..AN Ceylon— —————— .—————- ————— —-CY Norway..._..——_.————————.——————____LN Chile.....-— ------- --------------CC Pakistan.—.—-.——-.————....._........___..____..-..AP China ( Nationalist) ———————————— — — B Panama, Republic of———.........„....—.............RX Colombia— —————— ————— ————— HK Paraguay...——————...—_——_—.————————ZP Costa Rica— — ————--— —————— ————— -TI Peru—————————_———————————OB *Cuba— —————..-.— — ------ -----CU *Philippine Republic.————.....................—..PI Curacao (Netherlands West Indies).— .——— — PJ Poland—————————————————....„—_SP Czechoslovakia— ——————— ————— ———OK Portugal....................................—._—..———CS Denmark— —————— ————— ————— —-OY Portuguese Colonies..........__—„_———...............CR Dominican Republic.— ——————— ————— HI Rumania.....———.———..—_.—————.__-YR Ecuador... ———————— ————— ————HC Saudi Arabia...-—.————_———_——————HZ Egypt .--__--.._..--„...——————— SU Soviet Union..............................—.URSS or CCCP Eire (Ireland)..................-.-——— .--..-El or EJ *Spain—...—.——..—_—.....——_—————._-. -.EC El Salvador.... —————— — ——————— -YS Sudan————--—--——————————SN Ethiopia—— ——— ——————.--— —-ET Surinam (Netherlands Guiana).................. ...PZ Finland-.-....—— —————————— ——--OH Sweden———————.__.....——.............———SE France, Colonies & Protectorates, Switzerland——————.——_.____—..——————HB less Morocco— —————— —————— ————— F Syria.-....-.-_-____._...—_.___—_.— _—————YK Greece— ————— ————— ———— —————— SX Thailand (Siam)-._.____..._..............__. .....__...._.HS Guatemala— ——-„—-----— —-———TG Turkey———————_——..—————......_-TC Haiti....................-— ................. —— ——— HH Union of South Africa......—————.ZS, ZT, ZU Honduras... ————————— ————— ——.—XH United Kingdom———.........__._.....___-....._____.._____G Hungary.—— ——————— —————— ———HA United States of America.-.................-..____———N Iceland............................ .............................. TF Uruguay....——————...—..............._—..„—.—CX India-...-..............-....——.............———— .......VT *Venezuela—___—————.——__.————————YV Indonesia.— ... ————————————————— PK Yemen————————..——.—.„..___———.—YE Iran (Persia).. —— _———— —— ._— ——— — .....EP Yugoslavia....—————.——___—.................——YU Iraq-....— .————————— .......— ———.—.YI *The nationality marks herein are provisional. **Israel.-.——_— -——.—_.— ——-_—_———— 4X **An exception is Israel which employs the first Italy......--....................—..........................-..........-.! two characters of its radio call sign.
SUPPLEMENT NO. 2 JUNE 1951
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FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
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The purpose of inserting a glossary into this manual is to enable all who use it to describe an air plane by the same terms. By no means does it pretend to be an encyclopedia of aeronautical and aero dynamical science, but rather a reference source to define those visible features of any airplane by which it is most readily recognized. AERODYNE (Heavier-than-Air Aircraft)—Air plane, Landplane, Seaplane, Amphibian, Gyro plane, Autogyro, Helicopter, Glider, Ornithopter, Kite. AEROSTAT (Lighter-than-Air Aircraft)—Air ship, Balloon. AFTERBURNER—A type of power augmentation increasing the thrust output of a turbojet engine by the injection of fuel in a specially designed tail pipe (See Aircraft Engines) (British term— "Re-heat"). AILERON—A movable airfoil usually attached to the trailing edge of the wing and which controls the movement of the aircraft about the longitu dinal axis (roll, bank). AIRFOIL—Any surface, such as an aircraft wing, aileron or rudder designed to obtain a reaction from the air through which it moves. AIRPLANE—A mechanically driven fixed-wing aircraft, heavier than air, which is supported by a dynamic reaction of the air over its wing surfaces. AIR SCOOP—A scoop or opening designed to in duct air into the aircraft or its engine for some purpose such as carburetion, cooling or ventilat ing. AIRSHIP—An aerostat provided with a propel ling system and with means of controlling the di rection of motion. The term "airship" is some times incorrectly applied to heavier-than-air craft (airplane), and should be avoided when used in that sense. AMPHIBIAN—An aircraft designed to take off from and alight on either land or water. ARRESTER HOOK—A retractable hook lowered by carrier-based aircraft in order to make limitedspace landings by engaging wires on the deck. ARRESTING GEAR—Any gear incorporated in aircraft and in the landing area to facilitate land ing in a limited space, especially on the deck of an aircraft carrier. ATHODYD—An abbreviated aeronautical term formed by the conjunction of the following words: a—air; tho—thermodynamics; dy—dynamics; d— duct. AUTOGIRO—A type of aircraft propelled forward by a conventional engine and propeller but sup ported in the air by a rotor which is aerodynamically rotated by the forward motion of the plane.
BELLY—Colloquial term for the ventral portion or underside of the fuselage. BIPLANE—An aircraft with two wings placed one above the other. BLISTER—A colloquial term for a streamlined transparent housing protruding from the fuselage. BOMBER—(a) Heavy or Heavy Patrol—Bom bardment or patrol bombardment airplane with a combat radius of more than 2,500 nautical miles at designed gross weight and bomb load (Combat radius is defined as the distance from the home base to the target or remote base). (b) Medium or Medium Patrol—Bombardment or patrol bombardment airplane with a combat radius of 1,000 to 2,500 nautical miles at de sign gross weight and bomb load. (c) Light or Light Patrol—Bombardment or patrol bombardment airplane with a combat radius of less than 1,000 nautical miles at de sign gross weight and bomb load, normally to be used other than for direct support of ground or naval forces. (d) Attack—Bombardment airplane which specializes in the direct support of ground or naval forces. CABIN—A compartment for one or more persons built entirely within the profile of the fuselage, usually entirely enclosed except for windows and/ or doors. CANOPY—A transparent hood, covering or en closure. A BUBBLE CANOPY is a streamlined canopy projecting entirely above the top line of the fuselage and is usually made of only one or two pieces of glass or plastic. CATHEDRAL—A term applied to wings that have a "drooped" effect, or slight negative dihedral. A Cathedral Angle is sometimes employed in swept-wing aircraft to correct overstabilization (British term—"Anhedral"). CENTER SECTION—The central panel of a wing. CHORD—The straight-line distance between the leading and trailing edges of an airfoil; the width of an airfoil. COCKPIT—The compartment in an aircraft to ac commodate the pilot and/or other persons, usually open or covered by a movable canopy. FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951
22
GLOSSARY—(Continued)
RESTRICTED
and are divided into two basic types—JET and ROCKET. The former type utilizes the sur rounding atmosphere to provide the thrust me dium and the oxygen for its fuel combustion, while the latter type functions independently of the surrounding atmosphere, the thrust being provided by the combustion of self-contained oxygen and fuel.
COMMUNICATIONS/UTILITY — Light airplane used in carrying one or a few persons or light objects relatively short distances, in liaison, or in other military missions including target aircraft control, towing of targets, etc. CONTROL SURFACE—A movable airfoil, such as aileron, elevator or rudder, which controls the -movement of the aircraft.
Aircraft may be powered by either a recipro cating or a reaction engine or a combination of both. The word motor should not be applied to an aircraft engine, since it usually refers to one of the many small auxiliary motors in an aircraft which are used to operate pumps, flaps, landing gear, etc.
COWLING—A removable covering, as around an engine. DIHEDRAL—A wing design in which the wing tips are raised above the center section portions of a wing. Its effect is to improve its lateral sta bility.
EXPERIMENTAL AIRCRAFT— Aircraft which have the required military characteristics but which are undergoing flight tests and other ex periments as a preliminary to possible acceptance as standard articles.
DIVE BRAKE—A flap or movable surface which, when extended, reduces the speed of the aircraft in a dive. DORSAL—Adjective pertaining to the back or top portion of the fuselage.
FAIRING — An auxiliary part of the exterior structure, the function of which is to reduce drag or "streamline" the aircraft.
DROOP WINGS—A term applied to wings that have cathedral or negative dihedral. The B-47 and the de Havilland D.H. 108 both have droop.
FIGHTER—(a) Interceptor—Fighter airplane of relatively short range and high rate of climb, designed primarily to engage in combat with enemy aircraft during daylight hours and under relatively favorable weather conditions in order to prevent their reaching the target.
EDGE—See "LEADING EDGE" and "TRAILING EDGE". ELEVATOR—A movable airfoil usually attached to the stabilizer and which controls the movement of the aircraft about the lateral axis (climb and dive).
(b) All Weather—Fighter airplane especially equipped with the electronic and other devices necessary to permit combat operation at night or under adverse weather conditions.
ELEVONS or CONTROLLERS—Hinged on each outer wing and serve as both elevators and aile rons ; thus achieving longitudinal and lateral con trol ; used on an all wing type aircraft. The term Ailevators is also used.
(c) Penetration — Fighter airplane of long range, designed to escort friendly bombers or to engage in other combat operations.
EMPENNAGE—The rear part of an airplane, usually consisting of a group of stabilizing planes (Horizontal stabilizers and vertical fin) to which are attached the control surfaces.
FILLET—A fairing used at the intersection of two surfaces, such as a wing fillet installed at the junction of the wing and fuselage. FIN—A fixed or adjustable airfoil to afford direc tional stability such as a tail fin or skid fin. Com mon name for the vertical stabilizer.
ENGINE—The motive power of an aircraft. Conventional reciprocating engines produce for ward motion by driving propellers or rotors and are divided into two basic types—RADIAL and IN LINE, depending on the arrangement of the . cylinders about the crankshaft. The former type is usually air-cooled, while the latter type may be either liquid-cooled or air-cooled.
FIRST LINE AIRCRAFT—Aircraft with charac teristics and performance which make them suit able to perform the missions for which they were produced. FLAP COWL—A movable section of the cowling used to control the flow of air around the engine or cowling units.
Reaction engines produce forward motion by the discharge of heated gases through a nozzle
AFM 50-40 OPNAV32P-1200
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23
GLOSSARY—(Continued)
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airfoils which are mechanically rotated by an engine.
FLAP, WING—A movable section of an airfoil used to change the effect of air flow over the airfoil. Wing flaps are located along the trailing edge of the wing and are lowered during take-off and landing in order to increase the effective lift of the wing.
HULL—The main body of a flying boat which furnishes buoyancy when in contact with the water. It contains accommodations for the crew and passengers.
FLOAT—A completely enclosed watertight struc ture attached to an aircraft to give it buoyancy and stability when in contact with water.
IN-LINE—See ENGINE. JET—See ENGINE.
FLYING BOAT—A form of seaplane whose main body or hull provides flotation.
LANDING GEAR—An assembly of wheels, struts, etc., on a landplane which give support and control to the aircraft while in contact with the ground and in take-off or landing.
FUSELAGE—The main body of an aircraft to which the wings and tail unit are attached. GLIDER — An aircraft heavier than air, with wings but without a power plant. It is supported in the air essentially by forward motion produced by gliding.
CONVENTIONAL type landing gear has a tail wheel (or skid) located behind the main wheels.
PRIMARY GLIDER—A ruggedly built glider designed for use in elementary training of glider pilots.
LANDPLANE—An aircraft designed to take off from and alight on land.
SECONDARY or UTILITY GLIDER—a glider designed to have better aerodynamic perfor mance than the primary type, but rugged enough for the use of pilots with limited training.
LEADING EDGE—The foremost edge of an air foil or propeller blade.
TRICYCLE type landing gear has a nose wheel located ahead of the main wheels.
LENGTH (OVER ALL)—The extreme forwardaft measurement of an aircraft. LIGHTER-THAN-AIR CRAFT—Aircraft which derives its vertical lift from its weight in relation to that of an equal volume of air.
HIGH PERFORMANCE GLIDER—A glider, generally called SAILPLANE, having a high degree of aerodynamic refinement and low min imum sinking speed, often used in soaring con tests.
LOOP—Radio antenna formed of coils of wire. MAST, RADIO—A fixed spar attached to an air craft to support the radio antenna.
CARGO TROOP GLIDERS—Large gliders de signed to carry cargo and/or troops and towed by a powered aircraft to within gliding range of the destination.
MACH NUMBER—A Mach number (named for Ernst Mach of Vienna) is a means of expressing speed in relation to the speed of sound. It is gen erally used to express speeds which approach or exceed the speed of sound. Mach 1.0 indicates the speed of sound—which is 661 knots (or 760.9 m.p.h.) at sea level and 15 degrees centigrade (59 degrees fahrenheit). A speed of Mach .8, for ex ample, would be 8/10ths of the speed of sound. Mach rhymes with lock.
GREENHOUSE—Colloquial term for the trans parent hood or canopy over the cockpit. GUIDED MISSILES—"The field of guided missiles is considered to include uninhabited missiles the trajectory of which is influenced by a mechanism within the missile, together with components of such missiles and associated systems. Conven tional torpedoes are excluded."
MONOCOQUE—A type of fuselage construction which relies on the strength of the skin or outer shell for its structural stiffness. The shell is sup ported by crosswise frames called BULKHEADS or FORMERS. SEMI-MONOCOQUE construction is similar to monocoque except that the shell is reinforced with longitudinal stringers running perpendicular to the bulkheads.
HEIGHT—The vertical measurement of an air craft at rest, taken from the lowest point of con tact to the topmost part of the aircraft including the rotation arc of the propeller. HELICOPTER — A type of aircraft propelled through and supported in the air by rotating
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GLOSSARY—(Continued)
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AUTOMATIC—A propeller the blades of which are attached to a mechanism that automatically sets them at the optimum pitch for various flight conditions.
MONOPLANE—An aircraft with a single plane or wing. There are four general types. LOW-WING—A monoplane with the wing lo cated at, or near, the bottom of the fuselage. MID-WING—A monoplane with the wing loca ted at approximately the mid-point between the bottom and the top of the fuselage. A LOW MID-WING has the wing located slight ly below this point, and a HIGH MID-WING has the wing located slightly above this point. HIGH-WING—A monoplane with the wing lo cated at the top of the fuselage. PARASOL WING—A monoplane with the wing located above the fuselage and connected to it by a cabane strut or other structure. NACELLE—A separate enclosure for an engine or equipment usually smaller than a fuselage. NOSE—The foremost part of the fuselage. NOSE WHEEL (DOLLY)—A small two-wheel dolly fitted to nose wheel strut for tail-up carrier stowage. OBSOLETE AIRCRAFT—Aircraft which are so deficient in military characteristics and perfor mance that they are no longer usable for the purpose for which they were originally intended. PANEL, ACCESS—A hinged or removable door which provides access to an interior compartment of the aircraft. INSTRUMENT—A bulkhead on which the air craft instruments are mounted. WING—A section of the wing which is con structed separately from the adjoining structure such as the CENTER PANEL or OUTER PANEL. On smaller aircraft the wing is often assembled in one integral panel. PANTS (also SPATS)—Colloquial term for the fairing on fixed landing gear. PILOTLESS AIRCRAFT—Remotely controlled aircraft which may or may not be capable of carrying one or more persons, but which will not carry persons in the performance of its primary mission. PROPELLER—Any device for propelling a craft through a fluid such as water or air; especially a device having blades which when rotated by a power-driven shaft, produce a thrust by their action on the fluid. ADJUSTABLE —A propeller the blades of which are so attached to the hub that the pitch may be adjusted while the propeller is at rest.
CONTRA-ROTATING—Two propellers mount ed in tandem on the same shaft axis but geared to rotate in opposite directions. Sometimes called "CO-AXIAL" propellers. CONTROLLABLE—A propeller the blades of which are so mounted that the pitch may be changed while the propeller is rotating. FULL-FEATHERING—A propeller the blades of which can be turned so as to present the least resistance to the airstream. This prevents "wind-milling" of the propeller while the engine is not operating while in flight. PUSHER—A propeller mounted on the rear end of the engine or propeller shaft so as to "push" the plane forward. REVERSIBLE PITCH—A propeller the pitch of which can be changed during rotation to a negative angle producing a braking effect or reverse thrust. TRACTOR—A propeller mounted on the for ward end of the engine or propeller shaft so as to "pull" the plane forward. RADIAL—See ENGINE. RECONNAISSANCE — (a) Strategic — Recon naissance airplane of long range equipped to make flights over enemy territory for the pur pose of obtaining photographic or other infor mation useful to the planning of subsequent operations. (b) Support—Reconnaissance airplane of rel atively short range designed to support land or naval operations by securing and transmit ting information needed in immediate tactical decisions. RIB—A chord-wise structural member of the wing. ROCKET—See ENGINE. ROOT—The "base" of the wing where it is attach ed to the fuselage. ROTOR—A complete assembly of rotating airfoils as used on autogiros and helicopters, generally revolving in an approximately horizontal plane. The airfoils are called ROTOR BLADES and are attached to the ROTO HUB. AFM 50-40 OPNAV32P-1200
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GLOSSARY-(Contmued)
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STEP—A break in the form of the bottom of a float or hull.
RUDDER—A movable airfoil usually attached to the fin and which controls the movement of the aircraft about the vertical axis (turn, yaw).
STRUT—A generic term for a structural member.
SAILPLANE—A high-performance type glider.
CABANE—An exterior strut connecting the wing to the fuselage, usually in parasol or high wing monoplanes.
SEAPLANE—An aircraft designed to take off from and alight on water.
OLEO—An oil-filled shock absorbing strut used as the main structural member of the landing gear.
SEARCH AND RESCUE—Airplane equipped to specialize in the location and rescue of wrecked aircrew personnel or other persons on land or on sea.
SWEEPBACK—Term applied to a wing whose leading edges and trailing edges are farther aft at the tips than at the roots.
SECOND LINE AIRCRAFT—Aircraft which may be used for the purposes for which they were produced, or for other purposes, but whose de ficiency in characteristics and performance entails a recognized handicap for military use.
SWEEPFORWARD—When the general wing shape sweeps aft from the tips. TAB—An auxiliary airfoil attached to a control surface for the purpose of reducing the control force or "trimming" the aircraft.
SHAFT—The part connected to the power plant which drives the propeller or rotor.
TAIL—The after part of an aircraft generally consisting of stabilizers, elevators, fin and rudder.
SLAT—A movable auxiliary airfoil, attached to the leading edge of a wing, which when closed falls within the original contour of the wing and which when opened forms a slot.
TAIL SKID—A skid for supporting the tail of an aircraft on the ground.
SLOT—An opening near the leading edge of a wing, either fixed or formed by a movable slat, which improves the airflow characteristics of the •airfoil.
TAIL WHEEL—A wheel for supporting the tail of an aircraft on the ground. TAPER—A gradual diminishing of the chord or the thickness of an airfoil.
SPAT—See PANTS. SPECIAL RESEARCH—Airplane designed for supersonic research or other research into aero nautical problems.
TARGET—Aircraft which may or may not be capable of carrying one or more persons, designed to be remotely controlled in flight for use in gun nery practice. (See Classification of Aircraft.)
SPINNER—A fairing of approximately conical or paraboloidal shape, which is fitted co-axially with the propeller hub and revolves with the propeller.
TRAILING EDGE—The rearmost edge of an airfoil or propeller blade. TRAINER —(a) Advanced — Airplane used in training pilots in instrument flying, navigation, gunnery, or other advanced phases of military aviation.
SPOILER—A movable airfoil or plate which when opened projects above the upper surface of the wing to disturb the smooth air flow, with a con sequent loss of lift and increase in drag.
(b) Primary and Basic—Relatively light and slow airplane used in teaching students funda mentals of flying.
SPONSON—A protuberance from a flying boat hull, often like a stub wing, designed to increase the beam and give lateral stability in the water.
TRANSPORT—(a) Heavy — Transport airplane with design payload in excess of 30,000 pounds at a 1000 mile tactical operating radius. (Tacti cal operating radius is defined as three-eighths of the maximum range under design load con ditions.)
SPRAY STRIP—A strip projecting from the hull or float of a seaplane to change the manner in which the spray is thrown. STABILIZER—Any airfoil the primary function of which is to increase the stability of the aircraft. It usually refers to the fixed horizontal tail surface of an aircraft, as distinguished from the fixed vertical surface (fin).
(b) Medium—Transport airplane with design payload of 16,000 to 30,000 pounds at a 1000 mile tactical operating radius. AFM 50-40 OPNAV 32P-1200
MAY 1949
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GLOSSARY—(Continued)
(c) Light — Transport airplane with design payload of less than 16,000 pounds at a 1000 mile tactical operating radius, or with a tactical operating radius of less than 1000 miles with any payload.
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TURRET—A movable enclosure housing arm ament. It may be manually operated or powerdriven. REMOTE CONTROL turrets are controlled from the position in the aircraft some distance from the turret itself. UNDERCARRIAGE—See LANDING GEAR. VENTRAL—Adjective pertaining to the "belly" or bottom portion of the fuselage. WING—Main supporting surface or airfoil of an airplane. Wings are often classified by their plan shapes, the most usual of which are: ELLIPTICAL—When leading and trailing edges are elliptical in general shape. STRAIGHT—When leading and trailing edges are straight, parallel and at right angles to the direction of flght. TAPERED—When the leading and/or trailing edges are straight but not at right angles to the direction of flight, so that the wing dimin ishes in chord from the root to the tip. Wings are also classified by their front-view shape: DIHEDRAL—When the wing axis slopes up (positive) or down (negative) from the root to the tip. GULL—When the center panel has positive dihedral and the outer panel is horizontal or has less positive dihedral. HORIZONTAL—When the wing axis forms a horizontal line. INVERTED GULL—When the center panel has negative dihedral and the outer panel has hor izontal or has positive dihedral. WING, FLYING—A tailless aircraft, the main body of which is an airfoil shape.
(d) Military Transport Aircraft—A transport aircraft fitted with military structural or design provisions, and may be a "combat" or "noncombat" transport aircraft. (e) Combat Transport Aircraft — A military transport aircraft which is prepared and equip ped with sufficient internal protection to operate at no more than reasonable risk over and in active combat area. (f) Non-combat military transport aircraft— A military transport aircraft which is not in tended or equipped to operate in an active com bat area. (g) Non-military transport — Conventional commercial type transport aircraft containing no provision for specialized military usage. THRUST—The resultant force in the direction of motion due to the components of the pressure forces in excess of ambiant atmospheric pressure acting on all inner surfaces of the vehicle parallel to direction of motion. Thrust less drag equals accelerating force. Thrust in relation to horsepower varies, in as much, as the performance characteristics of a turbo-jet engine are such that the thrust is ap proximately constant, but the horsepower output increases directly with airspeed for any given altitude. Therefore, the engine ratings are us ually given in pounds of thrust at standard sea level static conditions. At 375 mph the thrust in pounds is equal to the horsepower.
RECOGNITION FEATURES OF GUN CALIBERS In the recognition of types of gun calibers it is to be noted that even in large calibers, short barrels permit neat installations, and in consequence a sleek streamline fighter may house two to four 30 mm. cannons, noticeable only to the keen observer by the aperture in the aircraft nose or wing, but bear in mind that the exit holes you see may be blast tubes surrounding the barrel and extending forward, giving a false impression of caliber. If the extending projection favors a "thin wall" construction it will most certainly constitute a blast tube. Suggested standards of measurement for the non-technical. .50 cal. 20 mm. 30 mm.
l/2 inch in diameter. approx. 1 U.S. cent in diameter. approx. 1 half dollar in diameter.
40 mm. 50 mm. 75 mm.
approx. 1 silver dollar in diameter. approx. 2 inches in diameter. approx. 1 tennis ball in diameter.
AFM 50-40 OPNAV32P-1200
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RECOGNITION FEATURES
ILLUSTRATIONS
TYPES OF WING DIHEDRAL ANGLE FROM
THE
TYPES OF TAPER
ROOTS
OUTBOARD OF CENTER SECTION IN OUTER
_/
PANELS FORWARD- TAPERED, STRAIGHT LEADING-EDGE
IN WING-TIPS
INVERTED
BACKWARD-TAPERED, STRAIGHT TRAILING-EDGE
GULL-WING
GULL-WING UNEQUAL
FORWARD TAPER
FORWARDSWEPT
8
TAPERED
DEGREES OF WING DIHEDRAL ANGLE EOUI-TAPERED OR DIAMOND - SHAPED
SHARP
BACKSWEPT, UNTAPERED
MODERATE
SLIGHT
BUILT-IN TO LOWER SURFACE
TYPES OF WING-TIP
STRAIGHT
CENTER-SECTION,
BACKWARD-TAPERED OUTER
CURVED
SECTIONS
OR
8
TAPERED
ELLIPTICAL
SQUARED OFF
DEGREES
OF
TAPER
MARKED
MODERATE
SLIGHT
WING POSITIONS DUO -CURVED OR CURVED
UNDERCARRIAGE
TAIL LOW DIHEDRAL
TYPICAL WING
RETRACTABLE
i r
FIXED
——•~-——
BI-PLANE
SECTIONS
SINGLE NORMAL SUBSONIC
SINGLE
HIGH SPEED SUBSONIC
FLOAT
jTL
DOUBLE TWIN
FLOAT
BOAT
FLOAT
LAMINAR FLOW (SUBSONIC)
DIAMOND SECTION SUPERSONIC
TRIPLE SYMMETRICAL SUPERSONIC
BI'CONVEX
SUPERSONIC
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AIRCRAFT
ILLUSTRATIONS FIN { SWEPT-BACK)
RUDDER
NOSE INTAKE
SWEPT'lACK AILERON TRAILING EDGE
F-86 SABER
CABANE STRUT WAIN WHEELS tifETR ACTED) NOSE WHEEL (RETRACTED)
WING FLOAT
(FIXED)
JR2F-I (SA-I6A) ALBATROSS U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
29
NATIONAL MILITARY MARKINGS
AIRCRAFT
AIRCRAFT MARKINGS munist satellite countries. Gradually these coun The aircraft markings appearing in color are tries have been adopting the Communist red star arranged in alphabetical order of nations with one surrounded by colored roundels. Former national exception, the United States which is shown in colors are usually represented in the roundels. the very beginning. Communist markings seen over Korea, in gen It is intended that this display be an aid in iden eral, conform to those shown in the manual. Vari tifying aircraft and their nationality. All avail ations of these have appeared with different col able information is included in the preparation of ored roundels or colored horizontal flashings. these markings; however, in the field, discrepan cies may be noted especially with those of Com-
WINGS AND FUSELAGE
WINGS & FUSELAGE OF A. F. A/C IN KOREA
UNITED STATES
UNITED STATES AIR FORCE
RUDDER
WINGS
RUDDER
AFGHANISTAN
RUDDER
ARMY
WINGS
NAVY
ARGENTINA
WINGS AND FUSELAGE
RUDDER
BELGIUM
WINGS AND FUSELAGE BOLIVIA
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951 30
NATIONAL MILITARY MARKINGS
AIRCRAFT
WINGS
RUDDER
WINGS, FUSELAGE AND RUDDER
BULGARIA
BRAZIL
FIN FLASH
FIN FLASH
WINGS AND FUSELAGE
CANADA—R. C. A. F.
BURMA
WINGS
RUDDER
RUDDER
WINGS
CHILE __
CANADA—NAVAL
RUDDER
WINGS AND FUSELAGE
WINGS AND FUSELAGE
RUDDER, WINGS, AND FUSELAGE CHINA—COMMUNIST
CHINA—NATIONALISTS
rm ju-ju
OPNAV 32P-1200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951
31
NATIONAL MILITARY MARKINGS
AIRCRAFT
WINGS
RUDDER
CUBA
COLOMBIA
WINGS
RUDDER
FIN FLASH
WINGS
WINGS AND FUSELAGE
EGYPT SUPPLEMENT NO. 2 JUNE 1951
WINGS
RUDDER
ECUADOR
DOMINICAN REPUBLIC
FIN FLASH
WINGS AND FUSELAGE DENMARK
CZECHOSLOVAKIA
RUDDER
WINGS
RUDDER
RUDDER
WINGS AND FUSELAGE
ETHIOPIA FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
NATIONAL MILITARY MARKINGS
AIRCRAFT
WINGS
RUDDER
RUDDER
FRANCE—AIR FORCE
FINLAND
FIN FLASH
WINGS AND FUSELAGE
RUDDER
WINGS AND FUSELAGE
GREAT BRITAIN, AUSTRALIA & NEW ZEALAND
FRANCE—NAVY
RUDDER
WINGS AND FUSELAGE
WINGS
RUDDER
WINGS AND FUSELAGE
GREECE
GUATEMALA
WINGS
RUDDER HONDURAS
WINGS, FUSELAGE, AND RUDDER HUNGARY
SUPPLEMENT NO. 2 JUNE 1951 33
AIRCRAFT
NATIONAL MILITARY MARKINGS
FIN FLASH
WINGS AND FUSELAGE
RUDDER
INDIA
FIN FLASH
FIN FLASH
IRAN (PERSIA)
WINGS AND FUSELAGE IRAQ
FUSELAGE AND UPPERSURFACE OF WINGS
WINGS AND FUSELAGE
IRELAND (EIRE)
RUDDER
WINGS
INDONESIA
WINGS AND FUSELAGE
UNDERSURFACE OF WINGS
FUSELAGE
ISRAEL
WINGS AND FUSELAGE
RUDDER
ITALY
WINGS AND FUSELAGE
LEBANON FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951 34
NATIONAL MILITARY MARKINGS
AIRCRAFT
WINGS, FUSELAGE, AND RUDDER CEYLON
WINGS, FUSELAGE, AND RUDDER HAITI
RUDDER, WINGS, AND FUSELAGE JORDAN
WINGS, FUSELAGE, AND RUDDER HUNGARY
Note: Cut out the panels above and glue them as follows: CEYLON—Place under VENEZUELA on page 38. HAITI—Place under YUGOSLAVIA on page 38. JORDAN—Place under CEYLON on page 38. HUNGARY—To cover existing panel on page 33, line 4, column 2.
SUPPLEMENT NO. 5 JUNE 1954 305799 O—54———2
FM 30-30 OPNAV 38P-1200/5
AFM 50-40E
NATIONAL MILITARY MARKINGS
AIRCRAFT
RUDDER
WINGS AND FUSELAGE
SOUTH KOREA
RUDDER
SPAIN
SWITZERLAND
WINGS
RUDDER
WINGS AND FUSELAGE
THAILAND (SIAM)
SYRIA
FIN FLASH
WINGS
RUDDER
WINGS AND FUSELAGE
SWEDEN
FIN FLASH
WINGS AND FUSELAGE
WINGS, FUSELAGE AND RUDDER
WINGS AND FUSELAGE
U. S. S. R.
TURKEY
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951 37
AIRCRAFT
NATIONAL MILITARY MARKINGS
RUDDER
RUDDER
WINGS
_ _ _ LI BJ IGL LA v _ _i =. '_•. \i- - - - -
WINGS URUGUAY—NAVY
RUDDER, WINGS, AND FUSELAGE INDOCHINA
FIN FLASH
WINGS AND FUSELAGE YUGOSLAVIA
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SUPPLEMENT NO. 2 JUNE 1951
38
AIRCRAFT ADDENDA
ADDENDA
U. S. AIRCRAFT ADDENDA AIRCRAFT RECOGNITION MANUAL
grounds for subsequent trends and developments. A few of the aircraft illustrated represent native designs of countries not included in the manual under an individual tab. In the course of time, as these aircraft become operational, additional supplements will be pub lished and distributed for insertion in the manual.
The Aircraft Recognition Addenda contains photographs of U. S. A. F., U. S. N. and Foreign Aircraft chiefly in experimental and testing stages. Some of these aircraft are scheduled for produc tion and eventual assignment to operational squad rons, while others may serve only as proving
The four jet North American RB-45C FLYING CARTOGRAPHER, a photo version of the B-45 TORNADO, has flown missions over Korea.
• -The Air Force's YRB-49 A FLYING WING, converted YB-35 prop bomber for photo-reconnaissance, has six jets along its 172-foot wing.
FM 30-30 OPNAV 32P-I200/2
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
AFM 50-40B
39
U. S. AIRCRAFT
ADDENDA
Powered by four Allison T—40 twin turboprop units, the 60-ton Convair XP5Y—I was the world's first turboprop flying boat to fly.
McDonneM's XF—88 ts a twin-jet single-place penetration fighter.
Note the new F-86 markings used in Korea by the A. F.
The Air Force's high-speed, high-altitude Republic XF-91 jet-rocket interceptor fighter is equipped with two external tanks.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
U. S. AIRCRAFT
ADDENDA
Lockheed's WV-2 (N)/RC-121D(AF), is a special search and patrol airplane instrumented (or airborne C. I. C.
Convair's XF2Y SEA-DART twin-jet hydro-ski fighter.
Grumman's XF10F JAGUAR fighter has variable U s A swept-wings. SUPPLEMENT NO. 5 JUNE 1954 305899 O—54———3
Convair's F-102, prototype F-92, delta-wing fighter.
McDonnell's F-101 VOODOO twin-jet long-range fi3htCr ' FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
U. S. AIRCRAFT
ADDENDA
Boeing's KC-97 STRATOFREIGHTER, in-flight refueling.
Douglas C-124C GLOBEMASTER with radar nose.
Lockheed's C-130 has four T-56 turboprop engines.
Chance Vought's photo version CUTLASS F7U-3P.
Cessna's XT-37 is a jet light trainer.
Beechcraft's T-36X is a twin-jet trainer.
U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30
OPNAV 32P-1200/5 AFM 50-40E
U. S. AIRCRAFT
FJ-4 FURY has J65, 7,800-lb. thrust, new wing, and a dorsal spine.
ADDENDA
TF-86 is a tandem two-seat F-86 trainer.
Lockheed's latest model T-33/TV-3 jet trainer features wing-tip tanks, a raised rear seat, and a chubbier fuselage.
The Fletcher FD-25 DEFENDER has a 225 h. p. Continental engine and is being built in Japan by Kokusai. U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5
AFM 50-40E
ADDENDA
U. S. AIRCRAFT
intended as an SNJ replacement. Temco's PLEBE, powered by a 225 h. p. ensine, similar to the TE-1/T-35, is
Douglas XA4DSKYHAWK, a lightweight jet attack plane.
Northroo's F-89D SCORPION has wing-tip rocket pods. U. S. A. SUPPLEMENT NO. 5 JUNE 1954
Grumman F9F-9 TIGER Navy jet fi
Boeing's 707 STRATOJET, 4 j-57's, 100 passengers. FM 3O-30 OPNAV 3SP-1SOO/5 AFM 50-40E
ADDENDA
U. S. AIRCRAFT
CONVAIR'S XFY is a delta-wing vertical riser.
Lockheed's XFV-1 is a vertical riser with turboprops.
VT
t
• * J * «STATES»mmm •, uwtco
Piasecki's YH-16 TRANSPORTER, 40 passenger helicopter, is powered by two engines developing a total of 3,300 h. p.
The American XH-26 is a pulse-jet-driven helicopter. U. S. A. SUPPLEMENT NO. 5 JUNE 1954
McDonnell's XV-1 convertiplane has a rotor jet and a prop engine. FM 30-30 OPNAV 32P-1200/5
AFM 50-40E
U. S. AIRCRAFT
ADDENDA
Sikorsky's XHSS-1, powered by a 1,425 h. p. R1820 engine, is a four-bladed, anti-torque rotor, anti-submarine helicopter.
Sikorsky's XHR2S twin-engined helicopter has retractable landing gear and was designed For Marine transport duties.
Douglas's DC-7 is an improved DC-6B with 3,250 h. p. Wright turbocompound engines, and lengthened fuselage. U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30
OPNAV 32P-1200/5
AFM 50-40E
U. S. AIRCRAFT
ADDENDA
The F-84F, a swept-wing version of the F-84 THUNDERJET, will become the Air Force's first operational swept-wing fighter-bomber.
Designed for the Air Force as a penetration fighter, the Lockheed F-90 is a twin-jet swept-wing aircraft weighing more than the C-47/R4D.
The North American XF—93A penetration fighter, similar to the F—86 but with flush intakes, is powered by a 6,250 pound thrust J-48.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951 D55047 O—ftl——1
RESTRICTED
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. S. AIRCRAFT
ADDENDA
Designed by Chance Vought, the F6U PIRATE is a carrier-based jet fighter that has seen very little operational duty.
Martin's XB-51 three-engined jet bomber has a third jet in its tail.
AD-3W Douglas SKYRAIDER is half of the Hunter-Killer team.
The Douglas XA2D-I SKYSHARK is a single-place carrier-type attack plane powered by an Allison T-40 twin-turboprop engine.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
11. S. AIRCRAFT
A sister ship to the B-36, the Convair XC-99 carries 400 troops.
ADDENDA
Navy's delta-wing Douglas XF4D SKYRAY is a jet carrier fighter.
Fairchild's XC-120 PACKPLANE can detach its cargo-carrying fuselage pod which holds 20,000 pounds of cargo, or 36 litter patients.
Sometimes called the FLYING LABORATORY, the Navy's Lockheed PO-IW is a modified CONSTELLATION with A. E. W. gear.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. S. AIRCRAFT
ADDENDA
America's first turboprop transport, the TURBOLINER, with two 2,750 h. p. Allisons, is a research plane converted from a CONVAIR-LINER.
Lockheed's newest transport, the SUPER CONSTELLATION, C-I2IC/R7O, has a longer fuselage and greater range than the earlier model.
The Douglas SUPER DC-3, C-47F/R4D-8, is a moderniied DC-3 to extend the life of the aircraft beyond the obsolescence deadline of 1952.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. S. AIRCRAFT
D. H. of Canada designed the L-20 BEAVER and sold it to the U. S.
ADDENDA
First U. S. turbojet airliner to fly, Chase XC-123 with four jets.
Cessna's in-lined engined L-19 is a dual-control all-metal liaison aircraft with a crew of two or a pilot and one litter patient.
Hughes' XH-17 FLYING CRANE, powered by two jet units, was designed to lift up to 24,000 pounds for a distance of 60 nautical miles.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
U. S. AIRCRAFT
Piasecki's XH-16 will have two engines and a detachable pod.
ADDENDA
Note the additional fins on the Navy's new AF GUARDIAN.
Martin's 4-0—4 airliner, a development of the 2-0—2 with 2,400 h. p. engines, is on order by the U. S. Coast Guard and civilian airlines.
Temco's YT-33 BUCKAROO is a two-seat primary trainer.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
Beechcraft's YT-34 MENTOR was developed from the BONANZA.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
The British Short S.B.3. a development of the STURGEN, is an antisubmarine type fitted with a radar nose and two Mamba turboprop engines.
The British Fairey 17 GANNET with its Double-Mamba turboprop engine is slated for production as a carrier-borne antisubmarine aircraft.
The British Blackburn Y.B.I, antisubmarine, is shown with a Double-Mamba turboprop engine; an earlier version Y.A.5 had a Griffon engine.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
U. K. AIRCRAFT
The British Foirey FIREFLY Mk. 5 is a naval reconnaissance fighter.
ADDENDA
The British Hawker P.I052 is a swept-wing version of the SEA HAWK.
The British P.I08I, Nene powered, differs from the P.I052 by having a sweptback empennage and a new rear fuselage with straight-through exhaust
Scheduled for carrier use, the British de Havifland 112, VENOM N. F. Mk. 2, is a new version with a longer nose to accommodate radar.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
The British de Havilland 115 VAMPIRE two-seat side-by-side all-purpose dual control trainer uses many of the Vompire Mk. 5 components.
The British de Havi'lland 113, a two-seat side-by-side night jet fighter, is basically a VAMPIRi Ml. 5 with a new front fuselage for radar.
Th« British Supermarine Type 510, a development of the ATTACKER, was the first' sweptback wing aircraft to take off and land on <
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32 P-1200/2 AFM 50-408
U. K. AIRCRAFT
ADDENDA
The British Supermarine Type 535, a development of the Type 510, has a longer nose, a tricycle landing gear and provisions for an afterburner.
-ATI-experimental British METEOR Mlc..8 with4onger~iKtceltes-is-powered ty-two 7,200-lbrthrust Armstrong Siddeley Sapphire jet engines.
A fighter reconnaissance version, the METEOR F.R. Mk. 9 has the Mk. 8 empennage and a new nose section for forward and lateral photography.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
An unarmed photographic reconnaissance version, the METEOR P.R. Mk. 10 has the old Mk. 4 empennage and a new nose for camera ports.
The British-W-estland -WYV-ERN T.. Mk, 3 is a two-seat .trainer version of. the.turboprop Python powered T.F. Mk. 2 Naval Strike Fighter.
Designed and built by British Saunders-Roe, Ltd., the SR.AI twin-jet single-seat flying boat was the world's first jet fighter flying boat to fly.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
The British Avro 707B, a second version with a longer nose, is a single-seat jet delta-wing research aircraft; a third version exists with wing intakes.
Britain's Fairey F.D.I is a small delta-wing research jet aircraft.
The Nene powered Boulton Paul P.Ill is a research delta-wing jet.
The British de Havilland COMET, powered by four Ghost jet engines and two rocket motors for assist, was the world's first pure jet airliner to fly.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
I). K. AIRCRAFT
ADDENDA
The British Bristol BRABAZON MIc. I, a 100-possenger airliner powered by 8 paired piston engines, has a 290,000 pound take-off weight.
The British de Havilland 114 HERON, a four-engined 14-passenger version of the DOVE, is a feeder-line transport with a fixed tricycle landing gear.
"**»
The British Blackburn ond General is a large Military Transport.
U.K. SUPPLEMENT NO. 2 JUNE 1951
Avro's ASHTON, o Nene powered research transport, has TUDOR lines.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
The British Bristol 170 FREIGHTER/WAYFARER high-wing cargo carrier has two 1,700 h. p. Hercules engines and a bulldog appearance.
Britain's Armstrong Whitworth's APOLLO is a 26-passenger airliner with four turboprop Mamba engines rated at 1,010 h. p. each.
The British Vickers VISCOUNT airliner, a development of the VIKING, is powered by four Dart engines rated at 1,325 h. p. each
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
Latest version of the NORTHSTAR is the ROCKCLIFF ICE WAGON, Canadian version of the C-54/R5D, modified for airborne icing research.
Canada's Avro C-102 Jet-liner, a 50-passenger transport with four Derwent turbojets, was the first jet airliner to fly in North America.
r The British Handley Page H.P.R.2 is a two-seat side-by-side trainer.
U.K. SUPPLEMENT NO. 2 JUNE 1951
^ss-t—«rxgp •
The British Percival P.56 is a two-seat side-by-side basic trainer.
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
U. K. AIRCRAFT
ADDENDA
The British Bristol 173 helicopter has two synchronized radial engines each driving a rotor; however, it is able to run on one engine.
,„•.,_!
The DRAGONFLY.H. R. Mk. I (HO3S/H-5) powered by a 500 h. p. Alvis Leonides engine, is being produced for the Royal Navy by Westland.
The British Bristol Type 171 SYCAMORE helicopter, first to be built by Bristol, is intended for use as air-taxi, rescue work or artillery spotting.
U.K. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
ADDENDA
U. K. AIRCRAFT
Supermarine's 525 carrier fighter, a swept-wing development of the 508, is powered by two Avon turbojet engines.
The Armstrong Whirworth METEOR NF Mk. 14 has a one-piece canopy, a radome nose, and increased fin area.
De Haviifand's improved VAMPIRE jet trainer features wing tanks and tail-booms with fairings to the rudder. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30
OPNAV 32P-1200/5 AFM 50-40E
U. K. AIRCRAFT
Avro SHACKLETON Mk. 3, with a nose wheel.
Percival JET PROVOST trainer has a Viper jet.
ADDENDA
The GYRODYNE II convertiplane has pusher props.
COMET mk. 3, 4 Avons, 9,000 Ibs. thrust each.
Poland's MIDGE, a prototype of the GNAT, is a lightweight jet interceptor with a 1,640-lb. thrust Viper jet engine. U.K. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ADDENDA
U. S. S. R. AIRCRAFT
"it,
'
The Soviet "CROW" (Yak-14) is a strut-braced high-wing four-place monoplane with a fixed landing gear.
*-»»
The twin-engined "ARK" (Yak-16) carries 14 passengers.
The "MADGE" seaplane is an improved MDR-6.
**W»t«~A.»».»- »•• •.,,. .^.m, .•«,,, *,,4 ir «u „,.„,.
"
».
-
The Soviet "HARE," by Mil, resembles the HO5S. U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
The "HOUND" helicopter by Mil, resembles the HO4S. FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ADDENDA
U. S. S. R. AIRCRAFT
The "MAX" (Yak-18), a single engine low-wing trainer, features a radial engine and a fixed landing gear.
The Soviet "MOOSE" (Yak-11) trainer, featuring a prominent greenhouse, is similar in appearance to the T-6/SNJ.
The Soviet "BISON" long-range four-jet bomber appeared at the 1954 Air Show. U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
U. S. S. R. AIRCRAFT
ADDENDA
The Soviet's ILYUSHIN four-jet bomber, Type 10, with its tricycle landing gear, is approximately the size of the U. S. B-17 FORTRESS.
Features of the Soviet Type 12 twin-jet bomber, similar to Type 35, are its tapering shoulder-wing, long clean fuselage and sweptbacic stabilizer.
With its all-sweptbaclc surfaces, the Soviet shoulder-wing Type 15 by LAVOCHKIN is a high-speed jet fighter of advance design.
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951 956047 O—51——5
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
ADDENDA
U. S. S. R. AIRCRAFT
landing gear and an external nose wheel fairing. The Type 26, a jet trainer version of the Type 16, is a development of the Yak-15 with a tricycle
•The Soviet twin-jet Type 8 resembles the German Me 262.
BRATUKHIN designed the twin-rotored OMEGA helicopter.
L._.......,__.....__:„.. — Designed for feeder-lines the Soviet Yak-16 carries 14 passengers.
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951
The Soviet Type 28 jet fighter resembles the Yak-15 series.
FM 30-30 OPNAV 32P-I200/2 AFM 50-408
FRENCH AIRCRAFT
ADDENDA
The French SUD-EST AQUILON (SEA VENOM) is a carrier fighter powered by a Fiat-built Ghost jet engine.
The French Potez HP 75, a heavily armored rocket-armed low-speed attack aircraft, has a 450 h. p. pusher engine.
The French Hurel-Dubois H. 0. 31, a high aspect ratio twin-engined transport has double-fins, and a fixed landing gear. FRANCE SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
FRENCH AIRCRAFT
ADDENDA
The French Fouga C. M. 1 TOR jet trainer, third prototype.
Dassaolt MYSTERE IVN (top) and NC 856.
The French 1402 GERFAUT is a delta-wing test plane.
The Payen P. 49 is the First French delta-wing to fly.
SE DURANDAL delta-wing lightweight fighter. FRANCE SUPPLEMENT NO. 5 JUNE 1954
S. I. P. A.'s 1,500-lb. MINIJET (top) and "300" trainer. FM 30-30
OPNAV 32P-1200/5
AFM 50-40E
FRENCH AIRCRAFT
ADDENDA
The French S. O. 4000 experimental twin-jet high-performance bomber is the culmination of the research aircraft S. O. M. I and M. 2.
The French Dassault M. D. 450 OURAGAN (Hurricane) is a single-seat French Nene powered fighter; a swept-wing version is called the MYSTERE.
The French S. O. 6021 ESPADON (Swordfish) fighter is a modified S. O. 6020 with side intakes for its French Nene turbojet engine.
FRANCE SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
FRENCH AIRCRAFT
ADDENDA
The French Arsenal VG 90, a single-seat shoulder-wing naval jet fighter, is a development of the VG 70 with a French Nene turbojet engine.
The French Nord 1601, a sweptbaclt wing and tail twin-jet research aircraft, is powered by Derwent jets on each side of the fuselage.
The French Nord 2500 NORATLAS, a medium military cargo transport similar to the U. S. C-l 19, has two 1,600 h. p. engines.
FRANCE SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
FRENCH AIRCRAFT
ADDENDA
The French Dassault M. D. 315 FLAMANT, a light military transport with two engines rated at 600 h. p. each, is in quantity production for the F. A. F.
The French S. E. 2010 ARMAGNAC is a postwar 90-passenger airliner being produced for Air France with four 3,500 h. p. P & W engines.
The Nord 1400 reconnaissance and rescue amphibian has been tested with different make engines and is in production for the French Navy.
FRANCE SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
FRENCH AIRCRAFT
ADDENDA
The French S. O. 30P BRETAGNE is a production version of the S. O. 30 N, R, etc., and is now going into service with U. S. engines.
The French Breguet 761 DEUX-PONTS, a large four-engined cargo transport with a two-deck fuselage, is in limited productii
The French S. O. 1100 ARIEL, an experimental two-seat helicopter, is driven by rotor tip jets fed by an exhaust driven engine in the fuselage.
FRANCE SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
MISCELLANEOUS
ADDENDA
The Italian Fiat G. 59A fighter comes in another version, the G. 59B, a two-seater fighter trainer; both have 1,630 h. p. British Merlin engines.
The Italian Breda-Zappata B. Z. 308 transport will carry 55 passengers.
I. Ae. 27 PULQUI I (Arrow) was designed, built and flown in Argentina.
The Fokker S. II INSTRUCTOR two/three seat trainer with 190 h. p. Lycoming engine is operational in the Dutch Air Force.
MISC. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
MISCELLANEOUS
Argentina's I.Ae. 30 NANCU (Eagle) has British engines.
ADDENDA
The Dutch Fokker S. 14 jet trainer is to have a Derwent engine.
The Dutch Fokker S. 13, an advance trainer weighing more than 12,000 pounds loaded, is powered by 600 h. p. P & W Wasp engine.
Norway's Honningstad FINNMARK amphibian has U. S. engines.
MISC. SUPPLEMENT NO. 2 JUNE 1951
The Yugoslav S-49 is similar to Soviet Yak prop fighters.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
U. S. AIRCRAFT
ADDENDA
Convait's swept-wing and tail heavy jet bomber, the YB-60, features eight j-57 turbojet engines and some B-36 bombet components.
Boeing's YB-52 STRATOFORTRESS, a long range heavy bomber, features eight J-57 turbojet engines, and a decelerating parachute.
The Republic F-64F ond RF-84F (rear) have wins root intakes. U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Lockheed's F-94C STARFIRE has a new nose and stabilizer. FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
ADDENDA
U. S. AIRCRAFT
*YT-35 BUCKAROO primary trainer has a 165
h. p. engine.
*Beechcraft's YT-34 MENTOR is similar to BONANZA.
The Navy's Douglas XA3D is a twin-jet, swept-wing attack bomber designed for carrier operations; an A. F. version, XB-66, is planned.
The new CONVAIR-LINER 340 is longer than the 240.
McDonnell's XF3H DEMON Navy fighter features swept-wings.
•Errata for aircraft mislabeled YT-33 and YT-34.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
U. K. AIRCRAFT
ADDENDA
The Vickers VALIANT, Britain's first four-jet bomber, features Avon jet engines in burried wing root installations and slightly sweptback wings.
The British Gloster G.A.5 delta-wing JAVELIN has two Sapphire jets.
Britain's Avro 707A delta-wing jet features wing root intakes.
Britain's Boulton Paul P.119 jet trainer features slightly sweptback wings, sharply sweptback tail surfaces and side-by-side
U.K.
SUPPLEMENT NO. 3 JUNE 1952
seating.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
U. K. AIRCRAFT
ADDENDA
The British deHavilland MARATHON Mk.2 fitted with reversible pitch propellers is a turboprop engine version of the four-ensined Mk.1.
Britain's Supermarine 508 is a naval fighter with two Avon jets.
The British deHavilland D.H.110 VIXON has two Avon jels.
The British Short SEALAND is a light, twin-engine amphibian.
The British Short INSURANCE Bomber has four Avon jets.
U.K.
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
U. S. S. R. AIRCRAFT
Security Information
ADDENDA
The Soviet Type Yak-14 is a strut-braced dish-wing four-place monoplane with strut-braced tail assembly and fixed landins sear.
The Soviet Type 32 helicopter, by Mil, resembles the HO5S.
The Soviet Type 34 is an improved version of the MDR-6.
The Soviet's experimental bomber, Type 31, has four propeller-driven ensines, a Ions fuselage, a prominent rudder and a fin fairing. U.S.S.R.
SUPPLEMENT NO. 3 JUNE 1952
Security Inrornv
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
U. S. S. R. AIRCRAFT
Security Information
ADDENDA
The Yak-18 is a single engine low-wins trainer featurins a radial ensine with cylinder fairings, a tapering wins, and a fixed landing seer.
The Soviet Yak-11 trainer, featuring a prominent greenhouse covering, is similar in appearance and about the same weight as the T-6/SNJ.
U.S.S.R. SUPPLEMENT NO. 3 JUNE 1952
Security Information
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
FRENCH AIRCRAFT
Security Information
ADDENDA
Dessault's M.D. 452 MYSTERE jet fishier, a swept-wing version of the OURAGON, is scheduled to be produced for the French Air Force.
The French MD. 450.11, Type 30.L, with its electronics laden nose section has cheek air scoops instead of the OURAGON's nose intake.
The French S.O. M2 is a flying scale model of the S.O. 4000 and is Fitted with a single British Derwent turbojet engine. FRANCE
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 Security
OPNAV 32P-1200/3 AFM 50-40C
FRENCH AIRCRAFT
Security Information
ADDENDA
The French experimental Leduc 0.10, mounted on a LANGUEDOC 161, is powered by a 3,500-Jb. thrust ram-jet.
The French S.O. 95 CORSE II is a light transport.
The French S.O. 1120 ARIEL III is a jet helicopter.
The French Fouga C.M. 170-R MAGISTOR is a two place, tandem type jet aircraft designed as a jet trainer for student pilots. FRANCE
SUPPLEMENT NO 3 JUNE 1952
FM 30-30 Security Information
OPNAV 32P-1200/3 AFM 50-40C
MISCELLANEOUS
Security Information
ADDENDA
The Fiat G.80 trainer, Italy's first post-war jet, is powered by a Nene turbojet engine, has ejection seats, and is of all-metal construction.
The Saab-210 DRAKEN, Sweden's first delta-wing jet (Adder), is a "flying laboratory" with a wide range of aero measuring equipment.
VIHURI is a Finnish designed and built trainer that features a transparent cockpit canopy, retractable landing gear, and a Bristol engine. MISC.
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 Security Information
OPNAV 32P-1200/3 AFM 50-40C
MISCELLANEOUS
Security Information
ADDENDA
The small Italian Piaggio P.136 gull-winged twin-engined amphibian is in quantity production for the Italian Air Force.
The Italian Piaggio P.148 is a primary trainer for the I.A.F.
South Korean Navy rebuilt this T-6/SNJ and put it on floats.
The C. A.S. A. 201 ALCOTAN is the first twin-engined aircraft of Spanish design and construction; a larger version is the 202 H ALCON. MISC.
SUPPLEMENT NO. 3 JUNE 1952
Security Information
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
U. S. AIRCRAFT
Security Information
ADDENDA
Lockheed's WV-2 (N), RC-121D(AF), is a special search and patrol airplane instrumented for airborne C. I. C.
Convair's XF2Y SEA-DART jet fighter has hydro-skis.
Grumann's S2F searches and attacks submarines.
Grumann's XF10F JAGUAR Navy jet fighter has variable swept-wings, and a canard balanced horizontal tail. U. S. A. SUPPLEMENT NO. 4 JUNE 1953
259944°—53———3
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
U. S. AIRCRAFT
D motion
Boeing's KC-97 STRATOFREIGHTER, inflight refueling.
ADDENDA
The Douglas C-132 is a turboprop logistic carrier.
Lockheed's C-130 carries 35-passengers or cargo and has 4 YT56-A turboprop engines developing 3,500s. h. p. each.
Cessna's Model 318 is a let trainer. U. S. A. SUPPLEMENT NO. 4 JUNE 1953
Beechcraft's T-36X is a twin-jet trainer. FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
U. K. AIRCRAFT
Security Information
ADDENDA
Britain's Bristol BRITANNIA turboprop transport has four Proteus engines, weighs 70 tons, and can carry 70 passengers.
Canada's DHC-3 OTTER carries 13 passengers.
The British Comet 3 is a larger and more powerful version
Britain's Saunders-Roe PRINCESS has ten Proteus turboprop engines, 3,000 s. h. p. each, and weighs 140 tons. U.K. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
U. K. AIRCRAFT
SecurityTnTormation
ADDENDA
Britain's Handiey Page H. P. 80 VICTOR, first crescent-wing bomber, has 4 Sapphire jets, and a speed of Mach. 0.9
Britain's Saro SKEETER carries two passengers.
Britain's Avro 698 VULCAN is first de'ta-wing bomber.
Britain's Short SB. 5 is a research aircraft with a single jet engine, fixed landing gear, swept-back wings and a high set tail. U.K. SUPPLEMENT NO 4 JUNE 1953
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
FRENCH AIRCRAFT
ADDENDA
Security Information
The famous ju.52, designed by the Germans, was built in France during the war and has seen service in Indo-china.
The French Breguet 960, a carrier aircraft powered by a Nene turbojet and a Mamba turboprop, has folding wings.
France's S. O. 9000 TRIDENT designed to reach supersonic speed in level flight, has ram-jets and a rocket motor. FRANCE SUPPLEMENT NO. 4 JUNE 1953
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
FRENCH AIRCRAFT
Security Information
ADDENDA
The French Morane Saulnier MS 755 FLEURET twin-jet trainer has reached a top speed of 390 knots in level flight.
France's S. O. 4050 VAUTOUR is a twin-jet attacker.
France's S. E. 5000 BAROUDEUR is a ground attack jet.
The French Mafra-Cantinieau MC-101 helicopter with its engines forward and over the pilot made its first flight in 1952. FRANCE SUPPLEMENT NO 4 JUNE 1953
Security Information
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
MISCELLANEOUS
Security Information
ADDENDA
The Soviet built MIG-15 flown out of Poland by a defecting pilot is shown with Polish markings and extended flaps
The Yugoslav navigator and bombardier trainer prototype 215 produced at Ikarus is still in the testing stage.
The Yugoslav 215, and the 214 bomber prototype in the background, use Ranger engines and many of the same parts. MISC. SUPPLEMENT NO. 4 JUNE 1953
Security IS]
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
MISCELLANEOUS
Security Information
ADDENDA
The Swedish SAAB-91B or SK-50 SAFIR trainer, produced under subcontract by the Dutch, has a Lycoming engine.
The Yugoslav prototype jet has two small French jets.
Sweden's SAAB A-32 LANSEN is a dual purpose jet.
Italy's Fiat G.49 basic trainer has a 600 h. Q. U. S. P & W, R-1340 engine and slight anhedral at the wing roots. MISC. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30
Securityln^rffiation
OPNAV 32P-1200/4 AFM 50-40D
ADDENDA . *£' ..•"::*••'".•
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The RC-121D Super Constellation is designed for radar searching at high altitudes over ocean and land. Except for a conning tower shape at center fuselage with a bulging tub-like shape be neath, it is similar to other super constellation models with its long, fish-like fuselage and three vertical stabilizers. Wing tip tanks also may be carried. SPAN: 123' LENGTH: 116'2" ENGINE: 4/R-3350-34 Wright/3250 hp MAXIMUM SPEED: 310 knots/19,000 ft. RANGE: 3,110 nautical miles
The L-23A is a low wing, twin-engine, six seat aircraft used by the U. S. Army Field Forces for staff transport and general liaison purposes. A rectangular shaped rudder atop a short fuselage is one identifying feature. The short, rounded nose appears as the characteristic recognition item. SPAN: 45'3" LENGTH: 31'6" ENGINE: 2/GO-435-C2 Lycoming/260 hp MAXIMUM SPEED: 180 knots RANGE: 837 nautical miles SERVICE CEILING: 20,000 ft. u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1.956
USAF
RC-121D SUPER
US ARMY
CONSTELLATION
L-23A TWIN
BONANZA
FM 30-30 OPNAV 32P-I20G/6 AFM 50-40G
ADDENDA
CONVERTIPLANE US ARMY
HELI-VECTOR US ARMY u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
This 4-place helicopter/aeroplane had its first flight August 25, 1955. Tilting 3-blade combina tion rotors/propellers are mounted near the tips of the fixed wing. Rotors are tilted by electric motors. The XV-3 is powered by a P&W 450 horsepower engine. Maximum speed is estimated to be 140 knots.
The DH-4 Heli-vector made its first flight Jan uary 22, 1955. A platform for the pilot is mounted above two 15 foot contra-rotating rotors. Below the rotors are a central air-bag and 4 outrigged air bags that permit landing on water or land. The rotors are driven by two Vee belts from a Kiekhaefer Mercury 30 horsepower, two-stroke outboard engine. Weight is 180 Ibs.; range 15 miles; maximum speed 65 mph. FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
C/S
U. S. AIR FORCE AIRCRAFT
BOEING
B-52 STRATOFORTRESS
The B-52 Slratofortress is an eight-jet high sweptwing long-range heavy bomber. A prototype made its first flight in April 1952. The B-52 and the medium bomber B-47 are somewhat similar in appearance. Both bombers feature a 35° angle of wing sweep back, a tandem landing gear, and exter nal jet engine pods. These pods are in contrast to the British and Soviet jet bombers which feature engines buried in wing nacelles. The shark-like fin and rudder present a rather angular appearance, since no curves or fairings are employed on the tail section. In fact the angularity of the whole aircraft is its main recognition feature. Boeing is building a transport version, the 707, which will also be used as an aerial tanker. The B-52 Stratofortress weighs well over 350,000 pounds at take-off. LENGTH: 153'0" SPAN: 185'0" thrust each. 10,000-Ib. ENGINE: 8/J57-P/approx. MAX. SPEED: RANGE: ARMAMENT:
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BOEING
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
B-52 STRATOFORTRESS
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
CONVAIR
B-36
The B-36 is a long-range high-altitude very heavy bomber, powered by six pusher type radial engines mounted on the trailing edge of the wing. Additional power for the B-36D version is pro vided by four turbojet units mounted in two twinpods slung beneath the wings outboard of the re ciprocating engines. The wing, .mounted slightly forward of the midpoint of the fuselage, has slight dihedral and considerable sweepback on the lead ing edge. A very large single fin and rudder is mounted at the end of the long round fuselage. The horizontal stabilizer is without dihedral. To date the B-36 is the largest and heaviest (357,500 Ibs. loaded) bomber in operational service. It car ries a crew of fifteen in pressurized and heated compartments. The illustrations show the B-36D. LENGTH: 162'2". SPAN: 230'0". ENGINE: 6/R-4360, radial/3,500 h. p. each; 4/J47-GE-19/5,200-lb. thrust each. MAX. SPEED: 375 knots/34,500 ft. RANGE: 6,300 nautical miles/180 knots. ARMAMENT: 16 x 20 mm.; 2 x 43,000-Ib. bombs.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
CONVAIR
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
B-36
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
BOEING
B-47 STRATOJET
The Stratojet is a high-wing medium bomber powered by six jet engines slung beneath the wings. Two engines are mounted in a single nacelle outboard of the fuselage and a single engine nacelle is mounted near each wing tip. The wings and stabilizer are sharply sweptback giying an arrow-like appearance. Its fuselage is long and narrow with a tapering high fin, and a tail cone that extends beyond the rudder. The B-47 has a retractable bicycle landing gear composed of two wheel trucks with small wheels ex tending from the inboard nacelles for balance. There are RATO tube openings in the fuselage sides aft of the trailing edge of the wing. When loaded the B-47 weighs more than 180,000 pounds. SPAN: 116' 0" LENGTH: 106' 6" ENGINE: 6/J-47-GE-ll/5,200-lb. thrust each. MAX SPEED: 540 knots/10,000 ft. RANGE: 3,300 nautical miles/430 knots. ARMAMENT: 2x.50 cal. in tail; 1 x 22,000-lb. bomb.
USA SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
BOEING
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
B-47 STRATOJET
RESTRICTED Security Information
FM 30-30
OPNAV 32P-1200/3 AFM 50-40C
MARTIN
B-57 CANBERRA
The B-57 Canberra is a twin-jet mid-wing night intruder bomber version of the English Electric Canberra. A considerable amount of redesign was undertaken by Martin to convert the Canberra to U. S. production methods. A U. S. feature is a preloaded revolving bomb-bay door which rotates through 180° just before the bombs are released, leaving no protruding doors to reduce speed on the bombing run. The first Martin Canberra flew in July 1953. A tactical version of the Canberra pow ered by Avon jets has been built in Australia. The British design has been built in a number of versions ranging from light bombers to photo-reconnaissance. All-metal construction is employed in the semimonocoque fuselage. A retractable tricycle landing gear is fitted. The take-off weight of the night in truder Canberra is around 50,000 pounds. LENGTH: 64'0" SPAN: 65'0" ENGINE: 2/J65-W-S/7,200-lb. thrust each. MAX. SPEED: 490 knots plus. RANGE: Approx. 2,600 nautical miles/425 knots. ARMAMENT:
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MARTIN
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
B-57 CANBERRA
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
NORTH AMERICAN
B-45 TORNADO
The B-45 Tornado is a light, four-engined jet bomber or reconnaissance aircraft. It features a shoulder wing with its engines divided into pairs underslung on each wing in single nacelles. The B-45 was the first U. S. multi-jet to fly and since its first flight in 1947 approximately 140 have been built. A recon naissance version, the RB-45C, was in operational service in the Korean theater and flew many missions in the Yalu River area. The high-altitude photographic version has five camera stations capable of carrying ten different types of cameras. Its nose section and rear fuselage cone section have been redesigned to accommodate this gear. Equipment includes ejection seats and provisions for air-to-air refueling. Maximum take-off weight is around 110,000 pounds. LENGTH: 75'2" SPAN: 89'0" ENGINE: 4/J47-GE/6,000-lb. thrust each plus 2/Aerojet/4,000-lb. thrust/60 sec. MAX SPEED: 498 knots/sea level. RANGE: 2,100 nautical miles/385 knots. ARMAMENT: 2 x .50 cal; 1 x 22,000-lb. bomb.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORTH AMERICAN
USA SUPPLEMENT NO. 4 JUNE 1953
B-45 TORNADO
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
BOEING
B-50 SUPERBOMBER
The Superbomber B-50 is a medium bombard ment airplane powered by four radial type engines mounted in nacelles which extend beyond the wings straight trailing edge. The wing has slight dihedral and pronounced sweepback on leading edge. Notable is the B-50's very high single fin and rudder which can be folded when hangar clear ance is needed. The fuselage is round and tapers gradually and smoothly to the horizontal stabi lizer. Superficially it is similar to the B-29. It has a higher fin and rudder than the B-29, and the engine nacelles are larger. Crew compartments are pressurized and heated for high altitude flying. SPAN:
141'2".
ENGINE:
LENGTH: R-4360/3,500 h. p.
99'0".
SPEED:
353 knots/30,000 ft. 4,140 nautical miles/227 knots. ARMAMENT: 13 x .50 cal.
RANGE:
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
BOEING
USA MAY 1949
B-50 SUPERBOMBER
AFM 50-40 OPNAV 32P-1200
BOEING
B-29 SUPERFORTRESS
26376
The Superfortress is a medium bombardment air plane with four radial engines. Engine nacelles extend well forward from the leading edge of the single wing. The wing has pronounced dihedral and sweepback and the trailing edge of the wing is practically straight. The fuselage is large and round, with gradual taper to the tail. A very large single fin extends well forward on the fuselage. The B-29 was used extensively in the Pacific the ater during the latter stages of World War II, par ticularly in the bombing of Japan proper. This was the airplane used to drop the first atomic bomb. It has pressurized crew compartments for high alti tude flying. SPAN: 141'2". LENGTH: 99'0". ENGINE: R-3350/2,200 h. p. SPEED: 354 knots/34,400 ft. RANGE: 3,960 nautical miles/208 knots. ARMAMENT: 13 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
BOEING
USA MAY 1949
B-29 SUPERFORTRESS
AFM 50-40 OPNAV 32P-1200
BOEING
B-17 FORTRESS
The Fortress is a low-wing, four-engined medium bomber that saw extensive action in all theaters during World War II. A first flight by the proto type was made on 28 July 1935, and the first B-17 was delivered to the Army Air Corps in March 1937. This forerunner of our present B-29, B-50 type bombers has been progressively modified. Today a major employment of this aircraft is designated B-17G and B-17H. The B-17H is a conversion of the B-17G for Air/Sea Rescue duties and it carries a lifeboat under the fuselage plus radar in the chin. Used by the Navy and Coast Guard these versions are designated PB-1 and PB-lW respectively. Aside from these duties the B-17 is currently used for many experimental duties. LENGTH: 74'9". SPAN: 103'10". ENGINE: R-1820/1,200 h. p. 255 knots/25,000 ft. SPEED: 1,000 nautical miles/190 knots. RANGE: ARMAMENT: 12 x .50 cal.; and 6,000 Ib. bomb load.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
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9NI309
NORTH AMERICAN
B-25 MITCHELL
The Mitchell has two radial engines underslung below the wings with nacelles extending just be yond the wing's trailing edge. High outboard twin fins and rudders are sloped like a lopsided rectan gle. The gull wing effect is due to positive dihedral on inboard panel only. The wings are tapered on both edges with more pronounced taper on the trailing edge. A rather long transparent nose is set well forward of the wing. The B-25 was used extensively in World War II, particularly in the Pacific theater. It is well remembered as the air craft used by General Doolittle to bomb Japan from an aircraft carrier. Now used as a multiengine trainer with interchangeable noses. LENGTH: 53'6". SPAN: 67'7". ENGINE: R-2600/1,700 h. p. 252 knots/12,600 ft. SPEED: 1,130 nautical miles/168 knots. RANGE: ARMAMENT: 12 x .50 cal./4 turrets.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
NORTH AMERICAN
USA MAY 1949
B-25 MITCHELL
AFM 50-40 OPNAV32P-1200
DOUGLAS
B-26 INVADER
The Invader B-26 is a mid-wing light bomber fit ted with twin radial engines protruding well be yond the trailing edge of the wings. The wings are long and narrow tapering to blunt tips with slight dihedral evident. The fuselage is straight and narrow and has a step-up aft. A large fin and rudder is set on the tapering tail. The stabilizer has dihedral. The B-26 was developed from the Havoc A-20 and is quite versatile. It can be fitted with a bombing nose or an all purpose attack nose. These noses are interchangeable. On June 26, 1946 an experimental version, the XA-26F, estab lished a speed record of 413 mph over a 621 mile course. SPAN: 70'0". LENGTH: 51'2". ENGINE: R-2800/2,000 h. p. SPEED: 250 knots/5,000 ft. RANGE: 1,490 nautical miles/185 knots. ARMAMENT: 11 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
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USAF
The B-58 is a delta-winged, supersonic bomber. Outstanding recognition features include the delta shaped, conical tipped wing, podded engines extending well in front of the wing leading edge, and a large, sharply swept back vertical stabilizer. Three separate cockpit canopies are mounted atop the fuselage. SPAN: 55' LENGTH: 95' ENGINE: 4/GE J-79/Afterburners MAXIMUM SPEED: Exceeds Mach I
y. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
B-58 HUSTLER
CONVAIR MULTI-JET BOMBER
FM 30-30 OPNAV 32P-1200/6 ARM 50-40G
HUSTLER
ACCENTED
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
DRAWING
FM 30-30 ; -U OPNAV 32M20Q/*' 2 AFM '
USAF
B-66 SKYWARRIOR
The B-66 Skywarrior/Navy A3D has tapered wings, shoulder mounted. The wings have several degrees of droop or anhedral. The engine pods are attached to forward-jutting struts beneath the wing. Features of the tail section include sweptback horizontal surfaces mounted well above the fuselage on the vertical stabilizer and a radar controlled gun turret. The horizontal stabilizer is set with considerable dihedral. The B-66 has a slide-type, under fuselage escape chute and an upper ditching hatch. A tricycle type landing gear is utilized. Speed brakes are fuselage mounted and hydraulically operated. SPAN: 72'6" LENGTH: 75'11" ENGINE: 2/J-71 Allison/10,000 Ibs. thrust MAXIMUM SPEED: More than 560 knots RANGE: More than 2000 nautical miles ARMAMENT: 2x20 mm cannon; bombs
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
DOUGLAS TWIN-JET RECONNAISSANCEBOMBER
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
B-66
USAF
SKYWARRIOR
ACCENTED
DRAWING
The B-66 shown with the US Navy version (Lower right photo)
Identify the aircraft shown above; correct answers are below
99-fl '9
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U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
99-8 >
IHOHHSVld '£
99-fl '2 FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
REPUBLIC
F-47 THUNDERBOLT
The Thunderbolt is a low mid-wing monoplane with single radial engine. The wing has a slightly tapered leading edge and curved trailing edge with blunt tips (earlier models had rounded tips) and full dihedral from roots. An oval shaped engine cowl with propeller hub set above center is faired into a rather thick fuselage with a sharp ridge down its sloping back. There is a single fin and rudder with pronounced taper on leading edge and curved trailing edge. The Thunderbolt was de signed as a high altitude fighter in 1941, and was one of the largest and fastest single engine fight ers of the USAF when America entered World War II. SPAN: 42'6". LENGTH: 36'1". ENGINE: R-2800/2,100 h. p. SPEED: 390 knots/35,000 ft. RANGE: 2,020 nautical miles/244 knots. ARMAMENT: 8 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
REPUBLIC
F-47 THUNDERBOLT
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
NORTH AMERICAN
F-51 MUSTANG
The Mustang is a low-wing monoplane powered by a single liquid-cooled engine. The radiator air scoop is a channel-section structure attaching un der and forming the lower portion of the main fuselage. The wings have evenly tapered leading and trailing edges with square tips and full di hedral from the roots. The single fin and rudder is sharply tapered on the leading edge, with a square top, and slightly tapered trailing edge. The prototype model of the F-51 was designed, built and flown (October 1940) in 100 days and put into production before the end of 1940. It was valuable for reconnaissance and long range escort-fighter missions. LENGTH: 33'4". SPAN: 37'0". ENGINE: V-1650/1,495 h. p. 425 knots/22,700 ft. SPEED: 1,720 nautical miles/236 knots. RANGE: ARMAMENT: 6 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV32P-1200
NORTH AMERICAN
USA MAY 1949
F-51 MUSTANG
AFM 50-40 OPNAV32P-1200
NORTH AMERICAN
F-86D SABRE
The F-86D is a single-seat interceptor designed to climb quickly for high altitude interceptions in allweather operations. It is a development of the F-86A Sabre with its air intake repositioned under a shark-like nose, which now encloses a radar scanner. The F-86D differs from its predecessor by having a larger aft fuselage section to house its more powerful jet engine and after burner. Equipment incl udes a "Flying Tail", air intercept gear, armamentlaying and tracking navigation, and an ejector seat. The cockpit canopy is a "clamshell" type, hinged at its rear end and jettisonable. Maximum takeoff weight is around 17,000 pounds. An F-86D broke the world's record in July 1953, when it flew 715.7 in. p. h. with full military load. LENGTH: 40'2" SPAN: 37'1" ENGINE: J47-GE-17/7,600-lb. thrust with A. B. MAX. SPEED: 622 knots/sea level. RANGE: 800 nautical miles/480 knots. ARMAMENT: 24 x 2.75" rockets, retractable launcher.
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORTH AMERICAN
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
F-86D SABRE
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
USAF
F-86H SABRI
The F-86H, fifth model of the famed Sabre Jet series, is designed to carry out the dual missions of a fighter-bomber and day fighter. Slightly larger than earlier models, it incorporates the knowledge of fighting, bombing, ground support and aerial reconnaissance gained through thou sands of missions in Korea by its predecessors, F-86A's, E's, and F's. The outstanding differences between the F-86H and its predecessors are the lack of dihedral in the horizontal tail surfaces and a slightly larger fuselage section. Special features of the "H" include hydraulically operated controls, electrically operated flaps, a geared ele vator, modified wing with stationary extended leading edge, and a self-sufficient starter system. Over-all recognition configuration of the Sabre is that of a swept-wing, swept-tail shape, hung on a "fish-mouthed", sturdy fuselage.
u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
NORTH AMERICAN SINGLE-JET FIGHTER
SPAN: 37'1" LENGTH: 38'8" MAXIMUM SPEED: Over 615 knots ENGINE: 1/J73-GE-3/9000 Ibs. thrust RANGE: More than 1470 nautical miles SERVICE CEILING: Above 50,000 ft. ARMAMENT: 4x20 mm. cannon; rockets and bombs
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
F-86H
USAF
SABRE
ACCENTED
DRAWING
Top photo$ are the US Navy version, FJ-2 and FJ-4, Fury; Lower photos are F-86£'s
Identify the aircraft shown above; correct answers or* below 'SI H98~d '8 U. S. A. SUPPLEMENT NO. 6 DECEMBER I9S6
aSiNOH >l 3a31SAW '9
398-dl '£1 'S
a31NnH '21
398-d 'I!
398~d '01
NV9V0nO '6
FM 30-30 OPNAV 32P-UOO/6, AFM SO-40G /
LOCKHEED
F-80 SHOOTING STAR
The distinction of being the first to shoot down a Soviet made MIG-15 goes to an F-80 Shooting Star pilot. Furthermore, these aircraft flying over Korea were the first jet aircraft in the annals of history to engage in jet aerial warfare. The F-80 has additional laurels in that it was the first jetpropelled combat aircraft to be accepted by the U. S. Army Air Forces. This low-wing fighter was designed around a British de Havilland H-l jet unit which powered the prototype. The first flight of the XP-80 was made on 9 January 1944. Since then the Shooting Star has seen wide service in Korea where larger wing tanks have been fitted to extend its range. It has proved to be a sturdy aircraft capable of taking much punishment. LENGTH: 34'6". SPAN: 38'11". ENGINE: J33-A-23 or -35/5,400-lb. thrust (wet). MAX. SPEED: 505 knots/7,000 ft. RANGE: 1,200 nautical miles/380 knots. ARMAMENT: 6 x .50 cal.; 8 x 5" HVAR rockets.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
LOCKHEED
U.S.A. SUPPLEMENT NO 2 JUNE 1951
F-80 SHOOTING STAR
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
NORTH AMERICAN
F-82 TWIN-MUSTANG
The Twin-Mustang is a low-wing monoplane with twin-engines and twin-fuselages. The fuselages are joined together by a constant-chord center sec tion and rectangular stabilizer. The center section of the wing has a rather straight leading and trail ing edge. Outer sections of the wing have evenly tapered leading and trailing edges and square tips. A single fin and rudder at the extremity of each fuselage has sharply tapered leading edge, square top, and slightly tapered trailing edge. High speed and large fuel capacity of the F-82 makes the air plane valuable for night interception and longrange reconnaissance missions. LENGTH: 39'0' SPAN: 51'6". ENGINE: V-1710/1,600 h. p. 405 knots/16,400 ft. SPEED: 2,230 nautical miles/262 knots. RANGE: ARMAMENT: 6 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
NORTH AMERICAN
USA MAY 1949
F-82 TWIN-MUSTANG
AFM 50-40 OPNAV32P-1200
F-84 THUNDERJET
REPUBLIC 6653
The Thunderjet is a low-mid-wing monoplane pow ered by a single turbo-jet engine mounted in a round fuselage with the air intake in the nose. The pilot's cockpit is located ahead of the wing's leading edge. Drop tanks are fitted to the wing tips. A single fin and rudder is rounded at top with a jet outlet in the tail extending slightly be yond the rudder's trailing edge. The original con ception for the F-84 was a redesign of the F-47 fitted with a jet engine. In September 1946, a pro totype XF-84 set an American speed record (611 mph). Retractable rocket mounts disappear into the wings after the rockets are fired. It is equipped with jettisonable pilot's seat. LENGTH: 37'2". SPAN: 36'5". ENGINE: J35-A-15/4,000-lb. thrust. 521 knots/sea level. SPEED: 1,360 nautical miles/395 knots. RANGE: ARMAMENT: 6 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
REPUBLIC
USA MAY 1949
F-84 THUNDERJET
AFM 50-40 OPNAV32P-1200
REPUBLIC
F-84F THUNDERSTREAK
The F-84F Thunderstreak is a swept-wing and tail development of the Thunderjet fighter-bomber. ^Republic's "F" version was first flown on 3 June 1950, powered by an Allison J-53 jet engine. Later the more powerful British Sapphire engine, Wright J-65, was installed and this engine was selected for the production version. While in general this version closely resembles the straight-wing Thunderjet, there are a few differences such as the shape of the fin and rudder and the lack of wing-tip tanks on the sweptwing "F". Later production of the F-84F will shift from nose air inlets to wing root air intakes, similar to the EF-84F shown in the addenda. For long-range fighter escort duties two 450 U. S. gallon external tanks can be carried. Its maximum take-off weight is around 24,000 pounds. LENGTH: 43'3" SPAN: 34'6" ENGINE: J85-W-3/7,200-lb. thrust. MAX. SPEED: 615 knots/sea level. RANGE: 1,900 nautical miles/480 knots. ARMAMENT: 6 x .50 cal; 28 x 5" HVAR rockets, 4,000-lb. bomb load.
FM 30-30
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
Security Information
OPNAV 32P-1200/4 AFM 50-40D
REPUBLIC
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
R^^Ug^B Secfflr^nformat ylnformation
F-84F THUNDERSTREAK
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
REPUBLIC
RF-84F THUNDERFLASH
The RF-84F Thunderflash is a photographic recon naissance version of the Thunderstreak with the air intake removed to the wing roots to permit the installation of camera equipment in the slightly elon gated nose. Differences in construction and mission from the sister F-84F Thunderstreak fighter-bomber prompted the AF to change the RF-84F's name to Thunderflash. This version retains many of the F-84 family characteristics even though its wings and tail are sweptback. A noticeable departure is the cock pit fairing aft to the fin. The form of the photo graphic nose, cockpit enclosure and wing-root intakes and the shape and positioning of the boundary-layer fences are points to notice. When launched from a B-36, the Thunderflash is said to have an effective fighting radius of more than 5,000 miles. The Thunderflash's take-off weight is around 24,000 pounds. An early prototype is shown above. LENGTH: 47'6" SPAN: 33'6" ENGINE: J65-W-3/7,200-lb thrust. MAX. SPEED: 560 knots. RANGE: 2,000 nautical miles 480 knots. ARMAMENT: 4 x .50 cal.
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
REPUBLIC
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
RF-84F THUNDERFLASH
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
NORTH AMERICAN
F-86 SABRE
The F-86 Sabre is a single-seat, sweptback wing, jet fighter that has seen considerable action in the Korean theater. Sabre pilots have proved its ability by destroying numerous MIG-15's. The F-86 is America's first jet fighter designed with sweptback wings and tail surfaces. It has low mounted wings while the MIG-15's wings are mid-mounted. A marked difference is the MIG-15's high horizontal stabilizer while the F-86 has a small stabilizer with dihedral. The Sabre is fitted with a tricycle landing gear, and has a take-off weight of more than 16,000 pounds. It set an official world speed record of 669.8 m. p. h. in 1948 at Muroc. The F-86 is operational with the R. C. A. F. and R. A. F. A modified Sabre, the FJ-2 Fury, is flown by the U. S. Navy. The R. C. A. F. F-86 is known as the Star. SPAN: 37' 1" LENGTH: 37' 6" ENGINE: J47-GE-13/6,000-lb. max. thrust. MAX. SPEED: 590 knots/sea level. RANGE: 1,000 nautical miles/455 knots. ARMAMENT: 6 x .50 cal.; 16 x T-38 HVAR rockets.
U.S.A.
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 SecWffyTnTormation
OPNAV 32P-1200/3 AFM 50-40C
NORTH AMERICAN
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Security Information
F-86 SABRE
FM 30-30 Secffir^nrormation
OPNAV 32P-1200/2 AFM 50-40C
NORTHROP
Security Information
F-89 SCORPION
The Scorpion is a two-place high mid-wing allweather interceptor powered by two turbojet engines half submerged below the fuselage. Inte gral fuel tanks are mounted on the tip of the extremely thin forward tapered whig. A new development, however, would substitute a com bination rocket fuel wing tip pod installations in place of the wing tip tanks. A feature of the F-S9 is its high fin with an elevated stabilizer fitted to a narrow tapering fuselage. This empennage arrange ment bears a striking similarity to the Navy PBY. A crew of two, pilot and radar observer, sit in tandem beneath a long canopy. Ejection seats are provided and a tricycle landing gear is fitted. The take-off weight of the F-89 is more than 40,000 pounds. LENGTH: 53' 10" SPAN: 57' 10" ENGINE: 2/J35-A-21, 33, &35/7,200-lb. thrust each with afterburner. MAX. SPEED: 560 knots/sea level. RANGE: 1,000 nautical miles/450 knots. ARMAMENT: 6 x 20 mm; 16 x 5" HVAR rockets.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 Security Information
OPNAV 32P-1200/3 AFM 50-40C
NORTHROP
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Security Information
F-89 SCORPION
FM 30-30 Security Information
OPNAV 32P-1200/3 AFM 50-40C
LOCKHEED
Security Information
F-94 STARFIRE
The F-94 Starfire is a two-place version of the F-80 Shooting Star modified to carry the necessary radar required for an interceptor. This aircraft basically resembles the T-33 (Navy TV-2) also a modified version of the Shooting Star. Aside from the cockpit canopy, the F-94 differs from the F-80 by having a slightly longer nose, which is. required to house the radar. In addition, the after end of the F-94's fuselage is larger owing to the inclusion of an after burner. Wings and tail surfaces are the same as those of the F-80. Provisions for two jettisonable 1,000-pound thrust RATO units are incorporated as well as ejector seats for the crew. The Starfire has seen service in Korea as a night fighter. Its take-off weight is 16,700 pounds. SPAN: 37' 6" LENGTH: 40' 1" ENGINE: J33-A-33/6,000-lb. thrust with afterburner. SPEED: 510 knots/sea level. RANGE: 790 nautical miles/390 knots. ARMAMENT: 4 x .50 cal.; 2 x 1,000-lb. bombs.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30
Security Information
OPNAV 32P-1200/3 AFM 50-40C
LOCKHEED
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
F-94 STARFIRE
FM 30-30
Secuntymrormation
OPNAV 32P-1200/3 AFM 50-40C
LOCKHEED
F-94C STARFIRE
The F-94C Starfire is a two-place all-weather radarequipped interceptor developed from the earlier A and B models. These earlier models are still in service, but they will eventually be replaced by F-94C's. The F-94C differs from the earlier models mainly in nose shaping and tail sweep. Other differ ences include a larger dorsal fin and a spine joining the fin and cockpit, and a pointed fairing overhang ing the jet intakes. The final production model of the F-94C carries rocket pods on its wings. Fiber glass noses for these pods are fixed to disinte grate before the rockets leave the container. The F-94C basically resembles the T-33 (Navy TV-2), a modified version of the F-80 Shooting Star. Both aircraft have a thin straight-wing and a long clear cockpit canopy. The F-49C's take-off weight is more than 20,000 pounds. SPAN: 37'7" LENGTH: 41'6" ENGINE: J48-P/over 8,000-lb. thrust with A. B. MAX. SPEED: 560 knots plus. RANGE: 1,500 nautical miles. ARMAMENT: 48 x 2.75" rockets.
U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 3SP-1200/5 AFM 50-40E
LOCKHEED
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
F-94C STARFIRE
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
NORTH AMERICAN
F-100 SUPER SABRE
The F-100 Super Sabre is a low mid-swept-wing single-seat single-jet supersonic fighter. While it is not as graceful in appearance as the British Hunter, it conveys the impression of speed and effectiveness. It is a larger development of the F-86 Sabre, featur ing sweepback of 45° as compared with the Sabre's 35°. Other differences include a flat oval air intake and a landing gear with dual main wheels. The horizontal stabilizer is a single surface located on the underside of the fuselage, and it is noticeable that the wing tips are behind the leading edge of the tail unit. A V-shaped landing brake hinged under the wing is used on landing and can be supplemented by a tail parachute of the ribbon variety. The cock pit is fitted with an ejector seat and is air conditioned. An F-100 set a world speed record over a 15 km. course at 755.149 m. p. h. It has an afterburner. SPAN: 37'0" LENGTH: 45'6" ENGINE: P&W J-57 turbojet/10,00
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
NORTH AMERICAN
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
F-100 SUPER SABRE
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
USAF
F-101A VOODOO
The F-101A Voodoo is a swept-wing, twin-jet, long range fighter-interceptor developed from the McDonnell XF-88A and XF-88; Obvious recog nition features of the Voodoo are the high hori zontal tail surfaces, thin swept-wings, and the "binocular" appearance of the rear fuselage engine exhausts. Close view features include the midspan ailerons, all-flying tail and long, needletipped nose. The overall shape of the Voodoo sug gests a long-nosed projectile, supported by a reverse W-shaped wing, with a delicately attached tail section trailing aft. SPAN: 39'7" LENGTH: 67'4" MAXIMUM SPEED: Over 800 knots ENGINES: 2/J57-P&W-13/10.000 Ibs. thrust/ Afterburner RANGE: Over 2500 nautical miles ARMAMENT: 4x20 mm. cannon
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
McDONNELL TWIN-JET FIGHTERINTERCEPTOR
FM 30-30 OPNAV 32 P-1200/6 AFM 50-40G
F-101A
USAF
VOODOO
ACCENTED
DRAWING
Miscellaneous views of the F-101A
Identify the aircraft shown above; correct answers are below
VIOI-d 'Z\ dfr8-d '9 U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
dt-8-d 'II »MVHA>IS 'S
dfr8-d '01. iOSVd >
'6 •£
N3SNV1 '8
NOW3Q 'L
aoaiaw 'i
VIOI-d 'I FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
USAF
F-102A MACHETE
The supersonic F-102A is an all-weather deltawing fighter interceptor. The principal recognition features are the triangular shaped wings, tri angular vertical tail surface, and the lack of horizontal stabilizer and elevators. The long, narrow-waisted fuselage looks a bit overstuffed around the cockpit, but manages a needle nose and slightly tapered tailpipe exhaust. The oversize vertical fin atop the fuselage is set well forward of the tailpipe nozzle. The general appearance of the Machete is that of a triangle with an elon gated apex and punctured base. SPAN: 38'1" LENGTH: 68'3" MAXIMUM SPEED: Over 680 knots ENGINE: l/J57-P&W-23/10,200 Ibs. thrust/ Afterburner RANGE: More than 950 nautical miles ARMAMENT: Falcon missiles
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
CONVAIR SINGLE-JET FIGHTERINTERCEPTOR
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
F-102A
USAF
MACHETE
ACCENTED
DRAWING
Miscellaneous views of the F-102 (Upper photo left is of TF-102)
10
Identify the aircraft shown above; correct answers are below
313HDVW '01 NVDinA 'S u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
'6
-8
313HDVW >
313HDVW 'E
AVVIA>IS 'L AVUAXS -Z
Nimvr -9 Nimvr -i FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
USAF
F-104
STARFIGHTER
The Starfighter has the appearance of a guided missile. Its unmistakable configuration consists of extremely stubby, razor-thin wings, supporting elongated tip tanks. The anhedral of the midmounted wings is very pronounced. The massive vertical fin is intersected near the tip by a broad "flying" horizontal stabilizer. Engine air, inlet ducts jut forward of the leading edge of the wing. The long needle nose helps identify this Century fighter. This aircraft uses a downward ejection seat. The fuselage houses the landing gear. SPAN: 21'11" LENGTH: 54'9" MAXIMUM SPEED: Over 900 knots ENGINE: l/J79-GE-3/12,000 Ibs. thrust/After burner SERVICE CEILING: 60,000 ft. ARMAMENT: 20 mm. cannon
U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
LOCKHEED SINGLE-JET FIGHTERINTERCEPTOR
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
F-104
USAF
STARFIGHTER
DRAWING
ACCENTED
M/sce/foneous view* of the F-104 STARFIGHTER
Wenfffy the aircraft shown above/ correct answers are below '9 U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
l-dlld 'S
Wl-d >
lN3(llai '£
l-dlld 'Z FM 30-30 OPNAV 32P-1200/6 , AFM 50-40G
CURTISS-WRIGHT
i—
C-46 COMMANDO
The Commando is a low-wing monoplane powered by two radial engines. The center section of the wing is rectangular while the outer wing sections have sharply tapered leading edges and slightly tapered trailing edges with distinct dihedral. The engine cowls are round with a propeller hub set in the middle of each cowl. There is no canopy ex tension above the top of the round fuselage. A high fin and rudder tapers sharply on the leading edge and has a curved trailing edge and round top. The C—46 was originally designed as a commercial airliner. Aside from carrying cargo, it has been used for glider towing and as an ambulance and paratroop carrier. SPAN: 108'0". LENGTH: 76'4". ENGINE: R-2800/2,000 h. p. SPEED: 235 knots/13,300 ft. RANGE: 1,880 nautical miles/151 knots. ARMAMENT: None.
USA MAY 1949
AFM 50-40 OPNAV32P-1200
CURTISS-WRIGHT
USA MAY 1949
C-46 COMMANDO
AFM 50-40 OPNAV 32P-1200
DOUGLAS
C-47 SKYTRAIN
The Skytrain is a twin-engine low-wing mono plane. The center section of wing has no dihedral. The outer section of leading edge has sharp taper while the trailing edge is straight and the tips are sharply rounded. There is noticeable dihedral in the outer wing section. The tail fin is faired for ward for about one-third the length of the fuse lage. The horizontal stabilizer is sharply tapered at the leading edge. The C—47 is a military version of the Douglas DC-3, one of the best known and most widely used commercial aircraft in the world. In the Navy it is designated the R4D while in England it is called the "Dakota". SPAN: 95'0". LENGTH: 63'9". ENGINE: R-l 830/1,200 h. p. SPEED: 195 knots/6,250 ft. RANGE: 1,370 nautical miles/146 knots. ARMAMENT:
USA MAX 1949
None.
AFM 50-40 OPNAV32P-1200
DOUGLAS
USA MAY 1949
C-47 SKYTRAIN
AFM 50-40 OPNAV32P-1200
DOUGLAS
(M7F/R4D-8 SUPER SKYTRAIN
The K4D-8/C-47F Super Skytrain is a cargo trans port adaptable to the transport of troops, passengers and litter patients. It is a converted Navy R4D or Air Force C-47. In commercial services the new Super Skytrain is designated the Super DC-3. The conversion from earlier Skytrain models includes strengthening the wing center section, fitting new outer wing panels having slotted flaps, and new ailer ons. The wing tips are squared and there is 15.5° sweepback on the leading edge and 4° sweepback on the trailing edge. New horizontal and vertical tail surfaces with increased area and squared tips are in stalled. The fuselage has been reinforced and its length increased 39 inches. An extra cabin window is added on each side. More powerful engines and accommodations for 35 troops are provided. SPAN: 90'0" LENGTH: 67'9" ENGINE: 2/R-1820-80/l,475 h. p. each. MAX. SPEED: 233 knots/4,900 ft. RANGE: 1,100 nautical miles/144 knots. ARMAMENT: None.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
j^^^PL^H) Secunt^nrormation
C-47F/R4D-8 SUPER SKYTRAIN
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
C-54 SKYMASTER
The Skymaster is a low-wing monoplane powered by four radial engines. The wings have dihedral from the roots with evenly tapered leading and trailing edges. The inboard engine nacelles are aligned slightly forward of the outboard engine nacelles. The rudder tapers evenly on the leading and trailing edges and has a rounded top. A point ed tail cone extends beyond the rudder at the end of the fuselage. The C-54 "Skymaster" carries a crew of five and has provisions for 49 troops or 36 litters. Its commercial designation is DC-4 and the Navy designation is R5D. This airplane is bearing the brunt of the burden of the "Berlin Airlift". LENGTH: 93'5". SPAN: 117'6". ENGINE: R-2000/1,450 h. p. 259 knots/19,800 ft. SPEED: 1,650 nautical miles/190 knots. RANGE: ARMAMENT: None.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
DOUGLAS
C-54 SKYMASTER
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
C-74 GLOBEMASTER
DOUGLAS
The Globemaster is a low-wing transport mono plane powered by four radial engines. The wings have evenly tapered leading and trailing edges with rounded tips and dihedral from the roots. The inboard engine nacelles are slightly forward of the outboard nacelles. The fuselage is long with a cockpit canopy placed high on the nose and a pointed tail cone extending beyond the rudder. A high fin and rudder tapers evenly on the leading and trailing edges and has a round top. The C-74 was designed for long range, combat transport missions. The prototype XC-74 made its first flight in September 1945. A crew of 13 is carried. SPAN: SPEED:
R-4360/3,000 h. p. 260 knots/15,000 ft.
RANGE:
3,300 nautical miles/174 knots.
ENGINE:
ARMAMENT:
USA MAY 1949
LENGTH:
173'4".
123'4".
None.
AFM 50-40 OPNAV32P-1200
DOUGLAS
USA MAY 1949
C-74 GLOBEMASTER
AFM 50-40 OPNAV 32P-1200
FAIRCHILD
C-82 PACKET
The Packet C-82 is a twin-engine high-wing monoplane. The fuselage is suspended from the wing and has a squat box-like appearance. The en gine nacelles are extended into twin-tail-booms. A tail plane joins the boom with a vertical stabilizer at the end of each boom. The fuselage extends al most equally fore and aft of the wing. The C-82 "Packet" is more popularly known as the "Flying Boxcar." Primary use is for cargo and troop transport being extensively used for paratroop operations at the present time. The rear doors of the fuselage open the full width of the fuselage to permit easy loading and unloading. LENGTH: 77'1". SPAN: 106'6". ENGINE: R-2800/2,100 h. p. 221 knots/17,500 ft. SPEED: 1,750 nautical miles/137 knots. RANGE: ARMAMENT: None.
USA MAY 1949
AFM 50-40 OPNAV32P-1200
FAIRCHILD
C-82 PACKET
USA MAY 1949
AFM 50-40 OPNAV32P-1200
BOEING
C-97 STRATOFREIGHTER
The Stratofreighter is a mid-wing heavy transport powered by four radial engines. The leading edge of the wing is sweptback, the trailing edge is straight and there is pronounced dihedral. The engine nacelles extend well forward of the lead ing edge with its inboard engines set slightly for ward of the outboard engines. Inboard engine na celles extend beyond the trailing edge. The fuse lage is long and deep and resembles a figure 8 from the front. Pronounced taper from under the front of the fuselage terminates in a tail cone which ex tends beyond the large single rudder. The C-97 is a double-decked, high altitude cargo-personnel air craft. LENGTH: 110'4". SPAN: 141'4". ENGINE: R-4360/3,500 h. p. 342 knots/28,400 ft. SPEED: RANGE: 1,640 nautical miles/222 knots. ARMAMENT: None.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
BOEING
USA MAY 1949
C-97 STRATOFREIGHTER
AFM 50-40 OPNAV 32P-1200
DOUGLAS
C-118B/R6D LIFTMASTER
The C-118B/R6D Liftmaster was developed as a freight-carrying version of the standard DC-6. It uses the wings, tail-unit and landing gear of its commercial forerunner, the DC-6, but has an en tirely new fuselage. The Liftmaster's fuselage is six feet longer than that of the DC-6. Commer cially the Liftmaster is designated DC-6A (cargo) and DC-6B (passenger). It is equipped with automatically controlled cabin pressurization and air conditioning systems to permit high-altitude flight. As many as 92 passengers can be accom modated in the DC-6B version. Powered by its four engines the Liftmaster has a gross take-off weight of 102,000 pounds. The C-118B/R6D re tains the C-54/R5D recognition features. LENGTH: 107'0". SPAN: 117'6". ENGINE: 4/R-2800/2,500 h. p. each. MAX. SPEED: 310 knots/14,500 ft. RANGE: 1,755 nautical miles/212 knots. ARMAMENT: None.
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
DOUGLAS
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
C-118B/R6D LIFTMASTER
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
FAIRCHILD
Security Information
C-119/R4Q PACKET
The Packet is a twin-engine high-wing cargo and troop transport. A secondary use is casualty evac uation. Its fuselage is suspended from the wing which gives it a squat box-like appearance. A num ber of modifications have been made in the tail sur faces of the C-119. Some have had ventral fins and stabilizer tips while the more recent Packet has de leted these in favor of a long dorsal fin fairings. Because of the position of the wing, the aricraft presents a nose heavy appearance. The C-119, often called the "Flying Boxcar", is an improved version of the C-82 featuring a relocated flight deck for improved vision. The doors in the rear of the fuselage open the full width of the fuselage. Its take-off weight is around 70,000 pounds. SPAN: 109' 3" LENGTH: 86' 6" ENGINE: 2/R-4360-20/3,250 h.p. each. MAX. SPEED: 245 knots/17,000 ft. RANGE: 1,370 nautical miles/180 knots. ARMAMENT: None.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Security Information
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
FAIRCHILD
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
SecuritylnFo^ration
C-119/R4Q PACKET
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
FAIRCHILD
C-119H PACKET
The C-119H military transport is a redesigned Packet with new wings of increased span, increased boom length, new tail with square-tipped extensions outboard of booms, new landing gear, and new Wright Cyclone compounded engines. Its perma nent under-wing fuel pods are noteworthy since they eliminate internal carriage of fuel and reduce firehazard. This feature is a 600 pound weight saver through elimination or reduction of fittings, etc. Its cargo capacity has been increased to approximately 23,000 pounds; however, in lieu of cargo 62 troops can be carried. The C-119H's maximum takeoff weight is 86,000 pounds. Take-offs over a 50-foot obstacle can be made within 2,600 feet and landings can be made within a distance of 1,300 feet. Squar ish lines are its chief recognition feature. SPAN: 147'6" LENGTH: 95'6" ENGINE: 2/R-3350-85/3.500 h. p. each. MAX. SPEED: 240 knots/15,500 feet. RANGE: 950 nautical miles/150 knots. ARMAMENT: None.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
259944°—53———4
FM 30-30
OPNAV 32P-1200/4 AFM 50-40D
FAIRCHILD
C-119H PACKET
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
LOCKHEED
C-121 CONSTELLATION
The Constellation is a low-wing monoplane with four underslung radial engines. The wings have pronounced sweepback and dihedral with slightly tapered trailing edges. The empennage incorpor ates three fins and three rudders with the hori zontal stabilizer extending beyond the outboard fins and rudders. A silhouette of the fuselage re sembles the cross section of an airfoil. The C-121 is an improved version of the original C-69 which was developed during World War II. The commer cial counterpart is the Model 749. It carries 44 to 64 passengers and a crew of 9. As a cargo carrier, it contains 2,844 cubic feet of cargo space. SPAN:
ENGINE:
R-3350/2,200 h. p.
SPEED:
330 knots/15,700 ft. 1,605 nautical miles/189 knots.
RANGE:
ARMAMENT:
USA MAY 1949
LENGTH:
123'0".
95'4".
None.
AFM 50-40 OPNAV 32P-1200
LOCKHEED
C-121 CONSTELLATION
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
C-121C/R7V SUPER CONSTELLATION
LOCKHEED
The Super Constellation is a high-speed long-range cargo, passenger, litter transport aircraft. It has been adapted for service use by the Navy (R7V) and Air Force (C-121C) from the Lockheed commercial "Super Constellation." From a recognition view point it is practically identical to its forebearer, the Constellation, retaining all of the typical features. In fact, the first prototype Super Constellation was a conversion of the original C-69 Constellation proto type. The new transport differs in having a longer fuselage which will accommodate up to 110 passen gers at a take-off weight of 145,000 pounds. In addi tion to being faster, it is designed for conversion to turbojet engines capable of improving its speed to more than 350 knots. LENGTH: 116'2" SPAN: 123'0" ENGINE: 4/R-3350-34/3,250 h. p. each. MAX. SPEED: 310 knots/19,500 ft. RANGE: 3,110 nautical miles/216 knots. ARMAMENT: None.
FM 30-30
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
Security Information
OPNAV 32P-1200/4 AFM 50-40D
LOCKHEED
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
C-121C/R7V SUPER CONSTELLATION
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
CHASE
C-122
The C-122 is a high-wing, twin-engined transport with a soup-ladle fuselage profile. It is very similar to its predecessor the XCG-18A Avitruk glider. This transport was flown for the first time on the 18th of November 1949. The leading edge of the C-122's wing has a slight constant taper to a rounded wing tip; the trailing edge has more noticeable taper to the tip. Twin radial engines are hung below the wing and close to the square boxlike fuselage. Both fin and stabilizer have rounded tips; dihedral is notice able in the stabilizer. Access for loading is by the after end of the up-swept fuselage via a lowered ramp. A tricycle landing gear is employed with the two main wheels fixed and the nose wheel retractable. SPAN: 95'7". LENGTH: 61'6". ENGINE: R-1820-101/1,425 h. p. SPEED: 216 knots/11,600 ft. RANGE: 865 nautical miles/150 knots. ARMAMENT: None.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
CHASE
USA JUNE 1950
C-122
FM 30-30 OPNAV 32P-1200 AFM 50-40A
CHASE
C-123
The C-123 is a high-wing, twin-engined transport which was designed to transport combat personnel and engineering equipment for airborne assault troops into small unprepared fields. Twin engines are mounted in special nacelles which can be quickly disconnected from the wings permitting rapid engine change. The wings are narrow with slight forward taper. A high mounted tail assembly is fitted on the upswept after end of the fuselage. Unlike its pre decessor the C-122, the C-123 has a fully retractable tricycle landing gear. A power-operated ramp pro vides for rear loading of heavy wheeled vehicles. The ramp can be adjusted to any truck-bed height for loading. SPAN: IIO'O". LENGTH: 77'1". ENGINE: R-2800-83/2,100 h. p. SPEED: 233 knots/16,000 ft. RANGE: 650 nautical miles/134 knots. ARMAMENT: None.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
VOfr-OS
oosi-dse AVNdO oe-oe
vsn
3SVHO
DOUGLAS
C-124 GLOBEMASTER II
4406
UWTEO STfctES MR FORCE •
*
The Globemaster II is a low-wing, four-engined heavy transport, which was designed to transport troops, general cargo, and very heavy equipment such as tanks, field guns, and fully loaded trucks. Huge clam-shell doors in the nose can be opened and a ramp lowered which will permit wheeled objects to drive or be rolled aboard. To load static cargo, an elec trically operated elevator can be lowered to the ground from the, center of the cargo section. By quick conversion into a double-deck personnel car rier, the Globemaster II will accommodate 200 troops and their field equipment. Recognition fea tures include a thick fuselage profile forward of the wing's leading edge tapering to a rounded section midway and aft to a conical tail piece. LENGTH: 127'1". SPAN: 173'4". ENGINE: R-4360/3,250 h. p. 282 knots/15,000 ft. SPEED: RANGE: 3,000 nautical miles/172 knots. ARMAMENT: None.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
DOUGLAS
USA JUNE 1950
C-124 GLOBEMASTER II
FM 30-30 OPNAV 32P-1200 AFM 50-40A
NORTHROP
C-125 RAIDER
The Raider is a high-wing, three-engiiied transport which was designed to operate from improvised air strips and to replace the glider as an airborne assault vehicle. In addition, it is to be used as an Arctic Rescue aircraft. The fuselage of the C-125 is near rectangular in cross-section to give maximum cargo space. When the rear fuselage has been raised by the hydraulic jack, a part of the tail wheel assembly, an under-fuselage ramp will permit the loading of wheeled or tracked vehicles as well as cargo. A two wheel type landing gear is fixed and supported by long struts. The wing has a straight leading edge to rounded tips while the trailing edge is straight in the fuselage area to out board of the engines, then it tapers sharply. LENGTH: 67'1". SPAN: 86'5". ENGINE: R-1820/1,200 h. p. 177 knots/5,200 ft. SPEED: 1,000 nautical miles/133 knots. RANGE: ARMAMENT: None.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
•o in o
K>
en
CONVAIR
C-131/R4Y SAMARITAN
The C-131/R4Y Samaritan is a military transport version of the twin-engined Convair-Liner. There are two versions, the C-131A based on the ConvairLiner 240, and the C-131C based on the ConvairLiner 340, The T-29 is an aircrew trainer version of the 240. Although based on the 240, the 340 is largely a new aircraft with greater wing span, a longer fuselage, more powerful engines, and heavier take-off weight. The extra fuselage length permits the addition of four extra seats. Both the Convair 240 and 340 are flown by air lines the world over. The Samaritan version can carry as many as 40 pas sengers or 27 stretcher cases. A hydraulically oper ated loading door facilitates its adaptability for cargo duties. The take-off weight of the A version is 43,000 pounds while the C version is 47,000 pounds. SPAN: 91'9" (A) 105'4" (C) LENGTH: 74'8" (A); 79'2" (C) ENGINE: 2/P&W R-2800/2,500 h. p. each (A). MAX. SPEED: 285 knots/16,000 ft. (A). RANGE: 2,285 nautical miles/170 knots. ARMAMENT: None.
USA SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
CONVAIR
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
C-131/R4Y SAMARITAN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
C-133A
The C-133A is a high wing, heavy transport that can airlift more than 80,000 pounds of pay Ipad. Its recognition features include a high, straight wing with four underslung engine na celles; a conventional tail group distinguished by the fillet-ridge extending from fin over latter third of the fuselage; two landing gear pods on the outside of the lower fuselage; and a long fuselage that begins with a radar thumb-nose and ends with an upswept aft section. The main landing gear consists of four sets of two wheels designed so the fore and aft sets of wheels can be retracted independently. SPAN: 179'8" LENGTH: 148'2" CREW: 4 ENGINES: 4/P&W T34-P-3 Turboprops/6,000 hp. each DESIGN GROSS WEIGHT: 255,000 Ibs. FUEL CAPACITY: Approx. 16,800 gallons
U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
DOUGLAS TURBO-PROP TRANSPORT
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
C-133A TRANSPORT
ACCENTED
DRAWING
Miscellaneous views of C-133A
Identify the aircraft shown above; correct answers are below
INOODSIA '9
UV38 >
L-1Q 'S U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
FM 30-30 OPNAV 32P-(200/6 AFM 50-40G
USAF
KC-135 STRATOTANKER
The KC-135 is a four-jet, swept-wing tankertransport type aircraft. It has a low wing design with jet engine pods extending ahead of and be neath the wing. Recognition features include con ventional tail surfaces, low-mounted swept wing, underslung strut-supported engine pods, and sharply tapered tail fuselage section. The Stratotanker is equipped with a tricycle landing gear, the main gear being four-wheel "trucks". SPAN: 130' LENGTH: 128' MAXIMUM SPEED: Over 500 knots ENGINES: 4/J57-P&W/10,000 Ibs. thrust SERVICE CEILING: Over 42,000 ft.
U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
BOEING FOUR-JET TANKERTRANSPORT
FM 30-30 OPNAV 32PAFM 50-40G
KC-135
USAF
STRATOTANKER
ACCENTED
DRAWING
Miscellaneous views of the KC-135 (Boeing 707)
Identify the aircraft shown above; correct answer* are below
zs-a ~L U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
LQL 9NI3O9 '9
•s
iNVHVA > .
aO-DIA '2 ZS-8 'I FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
NORTH AMERICAN
T-6/SNJ TEXAN
f U&AR fORCL
'285.799
i===^S»
499
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
The venerable Texan continues to play a vital role in pilot training throughout many parts of the worldi In addition, it is being used in Korea for multiple purposes including spotting and strafing enemy troops. This sturdy aircraft is powered by a single radial engine, and has a maximum takeoff weight of 5,600 pounds. It is of all-metal con struction with a cantilever wing and a retractable landing gear. The outer section of its low wing has marked dihedral with pronounced taper on the leading edge. With squarish wing tips and high triangular fin and rudder it is easy to spot. The Texan was manufactured in Australia and called the Wirraway. In England it is called the Harvard. The T-6G is a modernized Texan. LENGTH: 29'6". SPAN: 42'0". ENGINE: R-1340-AN/600 h. p. MAX. SPEED: 184 knots/3,900 ft. RANGE: 655 nautical miles/125 knots. ARMAMENT: 2 x .30 cal.; 4 x 100-lb. bombs.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
NORTH AMERICAN
T-6/SNJ TEXAN
*!•'' v* «
U.S.A. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50--40B
NORTH AMERICAN
T-28
The T-28 is a single-engine, low-wing monoplane, designed to replace the former Air Force advanced trainer, the T-6 Texan (Navy SNJ). Changes in Air Force pilot training methods since the war have eliminated what used to be known as primary training. Instead, cadets begin training in the Texan, a basic trainer. After advanced training in the T-28, they are trained in tactical type aircraft such as the F-80 and B-25. The T-28 is the first U. S. military trainer to be fitted with a tricycle landing gear. Seating arrangement for the pilot and student is tandem under a continuous canopy. Flight controls are dual and either occupant can steer the nose wheel. LENGTH: 32'4". SPAN: 40'10". p. h. R-1300/800 ENGINE: 250 knots/5,900 ft. SPEED: 705 nautical miles/139 knots. RANGE: ARMAMENT: 2 x .50 cal.; or 2 x 100-lb. bombs; or 6 x 2.25 rockets.
USA JUNE 1950
EM 30-30 OPNAV 32P-1200 A EM 50-40 A
§
N>
>0
o ui o
CONVAIR
T-29
The T-29 is a twin-engined, low-wing, transport type aircraft adapted for the training of Air Forestudent navigators and radar operators. Arrangee ment of the unpressurized cabin include stations for these trainees together with necessary equipment. This aircraft is a version of the Convair-Liner used on airlines the world over. In the military version four dorsal astrodomes and a ventral radome have been added which change the contours of the fuse lage. The T-29 has probably the world's largest fin-fairing and, as is so often the case, the fin and rudder shape provides the best single signpost to identity. Tapering narrow wings are dwarfed by the length of the nose and the overhanging engines. A tricycle landing gear is fitted. LENGTH: 74'0". SPAN: 91'9". p. h. ENGINE: R-2800/2,400 270 knots/26,100 ft. SPEED: 1,135 nautical miles/187 knots. RANGE: ARMAMENT: None.
USA JUNE 1950 893957 O—50——5
FM 30-30 OPNAV 32P-1200 AFM 50-40A
CONYAIR
USA JUNE 1950
T-29
FM 30-30 OPNAV 32P-1200 AFM 50-40A
T-33
LOCKHEED
•. w *,,*... i'?^™
^^'5^tISS^iif:l*?*4:v: _i*.*^-i The T-33 is a two-place trainer version of the F-80 Shooting Star modified for the mission of transition and training of pilots for jet type fighter aircraft. This aircraft basically resembles the F-94 and F-97 also versions of the Shooting Star. The T-33 does not have an after burner as does the F-94 and F-97. Wings and tail surfaces are the same as those of the F-80. Provisions for two jettisonable 1,000 pound thrust Rocket Assist take-off units (RATO) are in corporated in the bottom of the fuselage. The cock pit utilizes a pressurization system, "G" suit pro visions and ejector seats. Navy designation of the T-33 is TO-2. LENGTH: 37'8". SPAN: 38'9". ENGINE: J33-A-23/5,400-lb. thrust. 504 knots/7,000 ft. SPEED: 1,086 nautical miles/381 knots. RANGE: ARMAMENT: 2 x .50 cal.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
o o
o in
CONVAIR
L-5 SENTINEL
The Sentinel is a high-wing, single-engine liaison communications and reconnaissance aircraft. Power is provided by a single opposed engine in the nose. Wings are straight on leading and trailing edge to rounded wing tips. Double "V" type struts brace the wings to the fuselage. The rocker shaped fuse lage tapers to a conventional straight edge rounded tip tail. Plexiglass surrounds the cockpit area and on top in the wing root area. The landing gear is fixed with no bracing. This aircraft is a develop ment from the original Stinson 105. An adaptation of the L-5 is fitted to carry one stretcher case or light cargo up to a maximum of 2,000 pounds. This version's fuselage aft of the rear wing spar is deeper.
SPAN: U'W. LENGTH: 24'1". ENGINE: 0-435-11/190 h. p. SPEED: 111 knots/sea level. RANGE: 313 nautical miles. ARMAMENT: None.
USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
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,*•»
L-13
CONVAIR
The L-13 is a high-wing liaison monoplane pow ered by a single radial engine. The wings are braced to lower fuselage longerons by single steel tube struts on each side and can be folded for stor age. The outer sections of the wings have a sharp taper on the trailing edge and a slightly sweptback leading edge with square tips. Tailplane is mounted halfway up the fin and is braced to the fuselage on each side. The fin and rudder, evenly tapered on leading and trailing edges, has a square top. Designed as a general liaison, observation, photographic, and ambulance aircraft with steep take-off and landing angles. SPAN:
ENGINE:
O-425/250 h. p.
SPEED:
102 knots/sea level.
RANGE:
333 nautical miles/75 knots.
ARMAMENT:
USA MAY 1949
LENGTH:
40'6".
31'10".
None.
AFM 50-40 OPNAV 32P-1200
CONVAIR
USA MAY 1949
L-13
AFM 50-40 OPNAV32P-1200
AERONCA
L-16 CHAMPION
The Champion is a high-wing liaison airplane powered by a single radial engine. The propeller hub is set high on an engine cowl. The wings have slight dihedral and the leading and trailing edges of the wings are straight with rounded tips. A single fin and rudder has a curved leading edge, a rounded top, and a rather straight trailing edge. This Aeronca built airplane is capable of operating from small sod or turf runways and can land and take off from small landing fields. The L-16 per forms the following liaison aircraft functions: short range observation, light cargo, courier serv ice, and air evacuation. Used primarily by Army Ground Forces. SPAN: 35'2". LENGTH: 21'5". ENGINE: O-190-1 (C-85-8FJ)/85 h. p. SPEED: 83 knots/sea level. RANGE: 145 nautical miles/61 knots. ARMAMENT: None.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
AERONCA
L-16 CHAMPION
USA MAY 1949
AFM 50-40 OPNAV32P-1200
RYAN
L-17NAVION
The Navion is a four-passenger, low-wing liaison airplane powered by a single radial engine. The fuselage, from engine to rear of cockpit canopy, resembles a streamlined automobile. The engine cowl is round with a propeller hub set near the top of the cowl. The wings have distinct dihedral with rather straight leading edge and evenly tapered trailing edge with square wing tips. A single fin and rudder has a sharply tapered leading edge with a square top and slightly tapered trailing edge. The L-17 has a steerable nose wheel, hydraulically actuated landing gear and wing flaps, and variable-pitch propeller. SPAN: 33'5". LENGTH: ENGINE: 0-470-7/267 h. p. SPEED: 135 knots/sea level. RANGE: 539 nautical miles/knots. ARMAMENT: None.
USA MAY 1949
27'4".
AFM 50-40 OPNAV 32P-1200
RYAN
USA MAY 1949
L-17 NAVION
AFM 50-40 OPNAV32P-1200
CESSNA
L-19/OE
The L-19 is a dual controlled all-metal high-wing aircraft of semi-monocoque construction. Its principal missions are reconnaissance and observa tion. Another mission includes a wire laying capa bility. High lift slotted flaps are provided. The landing gear consists of two spring steel leaves with provisions for attaching cross wind landing gear and skis or flotation gear. The rear seat is adjustable for either forward or rearward facing observer. A six-cylinder air-cooled engine is fitted. It can be converted for ambulance or cargo use. The normal crew consists of a pilot and an observer or one litter patient in lieu of the observer. Maximum takeoff weight is 2,400 pounds. SPAN: 36' 0" LENGTH: 25' 0" ENGINE: 0-470-11/213 h.p. MAX. SPEED: 101 knots/sea level. RANGE: 435 nautical miles/85 knots. ARMAMENT: None.
U.S.A.
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
CESSNA
U.S.A. SUPPLEMENT NO 3 JUNE 1952
L-19/OE
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
DE HAVILLAND (Canada)
L-20 BEAVER
The prototype Beaver was designed and built in Canada by de Havilland. Final layout of the air craft was based on the results of a survey of some eighty Canadian bush operators. It flew for the first time on 16 August 1947, only 10 months after the design was begun. After considerable testing the Air Force ordered the L-20 for liaison and Arctic rescue work. It is powered with a radial engine and can carry seven persons or 1,000 pounds of cargo. The Beaver's maximum take-off weight is 4,820 pounds and it performs well on wheels, skis, or floats, which are easily and quickly interchangeable. In addition to its U. S. insignia, it will carry Arctic red tail and wing markings. A winter nose cowl and a belly tank are provided. LENGTH: 30' 2" SPAN: 48' 0" ENGINE: R-985-AN/450 h.p. SPEED: 140 knots/3,000 ft. RANGE: 520 nautical miles/85 knots. ARMAMENT: None.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
DE HAVILLAND (Canada)
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
L-20 BEAVER
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
CONVAIR
PB4Y-2 PRIVATEER
The Privateer, similar to the PB4Y-1 except for the single fin and rudder and longer fuselage, is one of the Navy's standard patrol planes. The wing is long, slender and mounted high and far back on the fuselage. The fin and rudder is very tall and fairs into the dorsal side of the fuselage. The "tear-drop" side blisters are very apparent from the plan view. The fuselage is of a "boxcar" shape with turrets in both the nose and tail. The PB4Y-2 has a shorter take-off distance than its predecessor, the PB4Y—1, requiring only 2,550 feet as compared to 5,400 feet required for the older type. The PB4Y-2 is longer by 6 feet and higher by 12 feet. SPAN: IIO'O". LENGTH: 74'7". ENGINE: R-1830/1,350 h. p. SPEED: 206 knots/13,750 ft. RANGE: 2,700 nautical miles/121 knots. ARMAMENT: 12 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
CONVAIR
USA MAY 1949
PB4Y-2 PRIVATEER
AFM 50-40 OPNAV 32P-1200
MARTIN
P4M-1 MERCATOR
The Mercator is a mid-wing long range high alti tude patrol and search plane; designated the P4M. It is powered by two radial reciprocating engines and two jet engines. The jets are housed in the nacelles directly below the reciprocating engines. The long rather narrow tapering wing is located midway along the fuselage and the undercarriage retracts into the wings outboard of the engines. A nose wheel is situated below the pilot's cockpit. A high vertical fin fairs smoothly into the fuselage and there is a tail gunner position just aft of the rudder. The stabilizer has even taper with round ed tips and considerable dihedral. LENGTH: 86'3". SPAN: 113'10". ENGINE: R-4360/2,650 h. p.; J33-A-10, 2,300-lb. thrust. 356 knots/20,000 ft. SPEED: 2,730 nautical miles/154 knots. RANGE: ARMAMENT: 4 x 20 mm.; 2 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
MARTIN
P4M-1 MERCATOR
USA MAY 1949
AFM 50-4U OPNAV 32P-1200
LOCKHEED
PV-2 HARPOON
The PV-2 Harpoon, basically an improved PV-1 Ventura, stemmed from the Lockheed 14 commer cial transport of prewar days. It is a twin-engine mid-wing monoplane with twin fins and rudders mounted high on the tail of the fuselage. The long, narrow wing tapers to rounded tips and has dihe dral from the roots. The engine nacelles are lowmid-mount on the wing and are close to the fuse lage. The fuselage has a pointed nose, a deep cen ter section and a pointed tail. A turret rises abruptly from the even dorsal fuselage line and a belly turret interrupts the smooth upsweep of the ventral fuselage line. LENGTH: 52'1". SPAN: 75'0". ENGINE: R-2800/2,000 h. p. 266 knots/15,200 ft. SPEED: 1,650 nautical miles/143 knots. RANGE: ARMAMENT: 9 x .50 cal
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
LOCKHEED
PV-2 HARPOON
USA MAY 1949
AFM 50-40 OPNAV32P-1200
LOCKHEED
P2V NEPTUNE
The Neptune is a landbased anti-submarine and anti-surface vessel, long-range patrol plane. It is in service in the U. S. Navy, the RAF, RAAF, and the French Air Force. The principal versions are the P2V-1 with a short nose, this model set a distance record of 11,235 miles between Ohio and Australia in 1946; P2V-2 with longer nose, 2% feet, for radar gear; P2V-3, —3W with more powerful engines; P2V—4 with compounded engines, maximum take-off 80,000 pounds, and large external radome; P2V-5 with flexible nose gun turret, larger wing-tip tanks carrying radar and searchlight as well as extra fuel; P2V-6 for long range mine laying, similar to P2V-5. Neptune aircraft were active in the Korean theater. SPAN: lOO'O" LENGTH: 75'4" to 77'11" ENGINE: 2/R-3350-8, -24W, -26W, -SOW/2,500 to 3,250 h. p. each. MAX SPEED: 295 knots/14,000 feet. RANGE: 3,250 nautical miles/155 knots. ARMAMENT: (-1) 6 x .50 cal; (-2) 6 x 20 mm, 4 x .50 cal; (-3) (-4) 8 x 20 mm, 2 x .50 cal; (-5) (-6) 4 x 20 mm, 2 x .50 cal; bombs, torpedoes, etc.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
LOCKHEED
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
P2V NEPTUNE
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
US NAVY
P2Y-7 NEPTUNE
The P2V-7 Neptune is a two engine, mid-wing, Navy patrol airplane, equipped with two addi tional turbojet engines to augment take-off and combat performance. The turbojet engines are mounted in pods outboard of the reciprocating engines, beneath the wing. The tapering, straight wing has wing tip pods that carry radar and landing lights in addition to fuel. Enlarged crew space, bulging cockpit canopy, modified nose land ing gear, re-designed wing tip pods and a simpli fied multifunction control system are added features of the -7 model. The P2V-7 is used for patrol, mine-laying or torpedo-bomber duties. The main recognition features are the long straight wing, tall bell-shaped fin and rudder, and narrow aft fuselage extending rearward beyond the tail surfaces. SPAN: 104' LENGTH: 97'10"
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
LOCKHEED TWIN-ENGINE AND TWIN-JET SUB KILLER MAXIMUM SPEED: 340 knots ENGINES: 2/R-3350-3R-Wright-piston Com pound/3700 h.p. 2/J34-Westinghouse-21-Turbojet/ 3400 Ibs. thrust RANGE: More than 3000 nautical miles ARMAMENT: 6x20 mm. cannon
FM 30-30
OPNAV 32P-1200/6
AFM 50-40G
P2V-7
US NAVY
NEPTUNE
ACCENTED
DRAWING
Miscellaneous views of the P2V-7 Neptune
Identify the aircraft shown above; correct answers ore below
OlinOSOW 'L U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
3NfUd3N L-Md '9
XDflS >
NOI31)OVHS ufcAV '3
OilflOSOW 'S
3Nnid3N Z-AZd T
3NOid3N Z-A'Zd 'I FM 30-30 OPNAV 32P-I200/6 ARM 50-40G
CONVAIR
PBY-6A CATALINA
The fabulous "Cat" is probably the most famous patrol plane in existence. Its exploits range over five oceans, from patrols to night torpedo opera tions, from evacuating the only person from Wake Island to trailing the German battleship Bismarck until it was sunk. Its design is a direct develop ment of the PY-1 boats of 1928. The XP3Y-1, prototype PBY, first flew in the spring of 1935, and after tests, it established an international distance record by flying non-stop from Norfolk to San Diego via Coco Solo, a distance of 3,443 miles. It is characterized by broad, shallow, sweeping hull, broad parasol wing and high horizontal tail plane. SPAN: 104'0". LENGTH: 63'10". ENGINE: R-1830/1,200 h. p. SPEED: 160 knots/17,000. RANGE: 2,214 nautical miles/102 knots. ARMAMENT: 3 x .30 cal.; 2 x .50 cal.
USA MAX 1949
AFM 50-40 OPNAV 32P-1200
CONVAIR
USA MAY 1949
PBY-6A CATALINA
AFM 50-40 OPNAV 32P-1200
MARTIN
PBM-5 MARINER
The Mariner is a nine place patrol bomber and. cargo transport with twin canted fins and rudders, and wing floats. An amphibious version, PBM-5A, has a retractable tricycle landing gear. The PBM is the world's largest twin-engined flying-boat and is noted for its long range, and seaworthiness. The hull is deep with blunt nose and with upsweep to the ventral line aft of the second step. The PBM played an important role in World War II, having been used for long range patrols out of newly won bases and for anti-submarine missions. A large number are still in service; it is expected to be one of the standard patrol planes for the imme diate future. SPAN: 118'0". LENGTH: 79'10". ENGINE: R-2800/2,100 h. p. SPEED: 183 knots/16,100 ft. RANGE: 2,058 nautical miles/115 knots. ARMAMENT: 8 x .50 cal.
,
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
MARTIN
USA MAY 1949
PBM-5 MARINER
AFM 50-40 OPNAV 32P-1200
MARTIN
P5M MARLIN
FT"
The Marlin is a twin-engined gull-wing patrol boat designed primarily for ASW. Other duties include long range radar mapping, mine laying, and open sea rescue. A feature of the P5M is-the length and depth of the hull aft of the main Vee step which permits softer landings in rough seas without exces sive pitching and bouncing, and reduces normal take-off time and distance. It is equipped with hydroflaps (underwater flaps) which aid in maneu vering in restricted areas. The P5M is the first twin-engine flying boat developed for the Navy since the war. From a front view the Marlin resembles the PBM Mariner and the PSM's stabilizer is inter changeable with P4M Mercator's. The P5M carries a crew of 11 and has a slightly greater gross weight than the PBM. SPAN: 118' 2" LENGTH: 91' 1" ENGINE: 2/R-3350-30/3,250 h.p. each. MAX. SPEED: 230 knots/16,500 ft. RANGE: 1,900 nautical miles/135 knots. ARMAMENT: 2 x 20 mm; 8 x 5" HVAR rockets.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
MARTIN
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Security Information
P5M MARLIN
FM 30-30
OPNAV 32P-1200/3
Security Information
AFM 50-40C
MARTIN
P5M-2
The P5M-2 Martin, an anti-submarine seaplane, is an advance version of the P5M-1. It is readily distinguished from the early P5M-1 by the highmounted T-tail. The P5M-2 is the first seaplane using the T-tail in which control surfaces are mounted atop the vertical fin. Some of the ad vantages over the conventional design are less tail area being required. It is more efficient with resulting decreases in both structural weight and aerodynamic drag. Spray damage to the horizontal tail is eliminated. The bow chine line has been lowered effecting a reduction in spray height which will facilitate overload take-offs and increase the life of the props. The P5M-2 engines have greater horsepower than those of the P5M-1. A long object projecting behind the stabilizer houses electronic gear. SPAN: 118'2" LENGTH: 91'1" ENGINE: 2/R3350-32W, turbo-compound/3,400 h. p. each. MAX. SPEED: Approx. 230 knots. RANGE: 1,900 nautical miles/135 knots. ARMAMENT: 2 x 20 mm; 8 x 5" HVAR rockets; bombs and mines.
U. S. A.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MARTIN
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
P5M-2
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
US NAVY
P6M-1 SEAMASTER
The Seamaster is a Navy multi-jet attack sea plane. Its primary mission is minelaying. Recog nition characteristics include long, shouldermounted swept back wings equipped with wing tip floats; four engines, two each mounted in boxlike nacelles above each wing at the wing roots with combined intakes and dual exhausts; and a very large T-shaped tail surface, the horizontal tail surface being attached at the top of the verti cal stabilizer. SPAN: 102'7" LENGTH: 133'5" MAXIMUM SPEED: Over 550 knots ENGINES: 4/J71-Allison-4/9,400 Ibs. thrust/ Afterburner RANGE: Over 2400 nautical miles SERVICE CEILING: Above 40,000 ft.
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
MARTIN MULTI-JET ATTACK SEAPLANE
FM 30-30 OPNAV 32P-1200/6 ARM 50-40G
P6M-1
US NAVY
SEAMASTER
ACCENTED
DRAWING
Mitcellaneovs view* of the P6M, Seamoster
Identify f/ie aircraft shown afcove; correct answers are befow
c31SVWV3S '8 SZS 3NlaVWa3dnS 'L U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
iNVHVA "9 Q£V 'S
o3iSVWV3S FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
CONVAIR
R3Y/P5Y TRADEWIND
The R3Y/P5Y Tradewind is a cantilever high-wing flying boat. It features two fixed auxiliary floats and a single tail. The hull is of high length/beam ratio design and incorporates a large cargo door on the after portside. Two versions of the aircraft are under development. The principal mission of the R3Y is to transport cargo, passengers, troops or litter patients, while the P5Y is an all-weather long-range patrol and reconnaissance flying boat. Pressurized, air conditioned, and sound proofed equipment is provided in the R3Y. The 60-ton flying boat can carry 80 passengers or troops seated in backwardfacing chairs. Although the Tradewind is smaller than the Mars, it will carry an equivalent payload. Later RSY's will be powered by larger T-54 Allison (coupled T-56's) turboprop engines. SPAN: 145'10" LENGTH: 142'6" ENGINE: 4/T40-A-10, coupled turboprops/5,100 S. H. P. each. MAX. SPEED: 300 knots. RANGE: More than 2,500 nautical miles. ARMAMENT: (P5Y) 10 x 20 mm, bombs rockets, torpedos, mines.
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
CONVAIR
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
R3Y/P5Y TRADEWIND
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
GENERAL MOTORS
TBM AVENGER
The TBM Avenger is a Grumman design (F) later manufactured by General Motors (M), and was the world's best torpedo bomber during World War II. It first gained wide publicity in the Battle of Midway. This versatile aircraft is still widely used in the fleet but is being replaced by single seat type attack aircraft. The Avenger can be recognized by its tall squarish fin and rudder sharply faired into the oversized dorsal turret greenhouse, and the break in the ventral side of the fuselage aft of the trailing edge of the wing. The tapered wing has straight inboard panels and dihedral on the tapered square tipped outboard panels. LENGTH: 40'11". SPAN: 54'2". ENGINE: R-2600/1,800 h. p. 235 knots/16,500 ft. SPEED: 1,510 nautical miles/128 knots. RANGE: ARMAMENT: 3 x .50 cal., 1 x .30 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
GENERAL MOTORS
USA MAY 1949
TBM AVENGER
AFM 50-40 OPNAV 32P-1200
SB2C HELLDIVER
CURTISS-WRIGHT
The Helldiver is a single radial engine Ibw-midwing monoplane. The wing has a straight leading edge and tapered trailing edge with full dihedral. A long cockpit enclosure extends aft nearly to the high broad fin and rudder. The ventral side of the fuselage has a continuous curve from nose to tail. The SB2C was one of the largest operational sin gle engine aircraft used in the last years of World War II. It was designed to carry bombs, depth charges, mines or torpedoes and to operate from a carrier. The SB2C replaced the SBD as the stand ard carrier based dive bomber, but is now rapidly being replaced by single seat attack type aircraft. SPAN:
49'8".
ENGINE:
LENGTH:
36'8".
R-2600/1,900 h. p. 258 knots/16,700 ft.
SPEED: 1,245 nautical miles/135 knots. RANGE: ARMAMENT: 2 x 20 mm.; 2 x .30 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
CURTISS-WRIGHT
USA MAY 1949
SB2C HELLDIVER
AFM 50-40 OPNAV 32P-1200
DOUGLAS
AD SKYRAIDER
The AD Skyraider has undergone considerable de velopment resulting in the AD-2, AD-3, AD-4, and AD-5. In addition to these principal versions, a number of "E," "N,." "Q," and "W" modifications have been produced. These aircraft differ by changes in the shape of the cockpit canopy, the addition of fins on the stabilizer, a large radar bulge under the fuselage, and various electronic gear, torpedo fittings and rocket mountings for ordnance. The AD is equipped with fuselage dive brakes open ing from both the sides and bottom of the slab-sided fuselage. During dive bombing attacks, bombs are forced clear of the propeller arc by firing a cartridge. Maximum take-off weight of the various AD's is approximately 19,000 pounds. AD aircraft have been turned over to the British Navy under MDAP. SPAN: 50'0" LENGTH: 38'2" ENGINE: R-3350/2,700 h. p. MAX SPEED: 325 knots/10,000 feet. RANGE: 1,500 nautical miles/180 knots. ARMAMENT: 2 x 20 mm; 12 x 5" HVAR rockets; 2,000-lb. bomb or torpedo.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
AD SKYRAIDER
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
AD-5 SKYRAIDER
The AD-5 Skyraider is a development of the AD series and incorporates side-by-side seating for an assistant pilot, increased armament, improved equip ment arrangement, enlarged vertical tail, and im proved aerodynamic characteristics. Its principal mission is that of general purpose attack and ground support. The AD-5 is also an effective torpedo, mine layer, or scout airplane operable from carrier or land base. Since the structural and armament provisions of all AD-5 series are identical, the basic aircraft may be converted with standard kits to any one of twelve or more combat or tactical versions, including day or night attack, photographic recon naissance, target-type, G, N, W, and S special radarequipped multi-seaters, eight passenger carrier and ambulance. The Skyraider has served in Korea. SPAN: 50'0" LENGTH: 40'0" ENGINE: R-3350/2,700 h. p. MAX. SPEED: 305 knots/17,000 ft. RANGE: 650 nautical miles/200 knots. ARMAMENT: 4 x 20 mm; 12 x 5" HVAR rockets; maximum bomb load 9,000 Ibs.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
AD-5 SKYRAIDER
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
MARTIN
AM-1 MAULER
The Mauler is a single-seat attack aircraft, pow ered by one of the most powerful reciprocating engines in operation. It is to be noted for recogni tion that the AM's assembly is sweptforward with a large dorsal fairing. The bubble canopy is just above the low, evenly tapered wing which has a straight inboard panel with dihedral outboard and blunt wing tips. This very clean design by Martin combines an all metal construction with bulletproof tanks, armor protection and flak re sisting glass. It can carry an armament load of more than 9,000 pounds. The AM-1 was designed for use aboard the large CVB aircraft carriers of the Midway Class. SPAN: 50'0". LENGTH: 41'2". ENGINE: R-4360/3,500 h. p. SPEED: 319 knots/16,000 ft. RANGE: 1,330 nautical miles/155 knots. ARMAMENT: 4 x 20 mm & rockets.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
MARTIN
USA MAY 1949
AM-1 MAULER
AFM 50-40 OPNAV32P-1200
GRUMMAN
AF GUARDIAN AF-2S
AF-2W *
The AF-2W and AF-2S are companion aircraft which differ in appearance in that the 2W, a search version, is equipped with a large underslung "Guppy" housing for electronic gear. Sometimes referred to as the hunter/killer team, the AF-2W after detection of the submarine, directs its companion aircraft, the AF-2S attack version, onto the target to launch the attack. The Guardian is a mid-wing carrier or shore based aircraft with accommodations for a crew of four in the 2W and three in the 2S. Wings have slight dihedral and fold backward for carrier stowage. The fin is high with a dorsal fairing. A tail wheel type landing gear is fitted. Originally the Guardian was designed for a composite power plant. The take-off weight is around 20,000 pounds. SPAN: 60' 0" LENGTH: 43' 5" ENGINE: R-2800-48/2,300 h.p. MAX. SPEED: 240 knots/4,000 ft. RANGE: 795 nautical miles/144 knots. ARMAMENT: 6 x 5" rockets; 4 x 500-lb. bombs HVAR or 1 torpedo (AF-2S).
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
GRUMMAN
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
AF GUARDIAN
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
NORTH AMERICAN
Security Information
AJ SAVAGE
The AJ Savage is a composite-powered carrier-based attack aircraft capable of carrying an atomic bomb. A later development, the AJ-2, has a higher vertical fin and the dihedral removed from the horizontal stabilizer. The AJ-2P photographic version has a refaired nose section for camera gear. Its overall fuselage length is two feet greater than the AJ-1 while the AJ-2 is just a foot longer. The AJ carries a crew of three. Its wings and vertical tail surfaces fold for carrier stowage. The AJ has two recipro cating engines for normal operations and a jet engine in the fuselage for additional power. Jet air intake is located on the dorsal side of the fuselage just for ward of the wing's trailing edge. Maximum take-off weight is around 53,000 pounds. A later version, the A2J, has two turboprop engines. SPAN:71'5" LENGTH: 63'1" ENGINE: 2/R-2800/2,300 h. p. each; J33-A10/4,600-Ib. thrust. MAX. SPEED: 415 knots/35,000 ft. RANGE: 1,400 nautical miles/235 knots. ARMAMENT: 12,000-lb. maximum bomb load.
__i U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORTH AMERICAN
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
AJ SAVAGE
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
A3D
The A3D is a twin-engined swept-wing jet attack aircraft designed to operate from large aircraft carriers. A slightly heavier Air Force version is designated B-66. Its two jet engines are enclosed in under-wing nacelles. The aircraft is of all-metal construction with a semi-monocoque fuselage. Pro visions are made for a three-man crew, a pilot, a co-pilot navigator, and a bombardier-radar operator. The wings of the A3D fold to permit more compact stowage aboard aircraft carriers. A tricycle landgear is fitted and an "A" frame with a tail wheel is attached for hard landings. The horizontal stabi lizer is adjustable for trim in flight. Power boost controls are featured. This aircraft, like the AJ, is capable of carrying the atom bomb. The arresting hook is located midway on the fuselage. SPAN: 72'6" LENGTH: 75'H" ENGINE: 2/J40-WE/9,500-lb. thrust each. MAX SPEED: More than 560 knots. RANGE: More than 2,000 nautical miles. ARMAMENT: 2 x 20 mm in tail; bombs.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DOUGLAS
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
A3D
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
US NAVY
A4D-1 SKYHAWK
The Skyhawk is a single-seat, low-wing, Navy attack bomber. Outstanding recognition features are its small size (less than half the size of many current operational jet fighters), the short, stubby delta wing, the triangular vertical tail surface, and the sharply tapered, short, needle nose. Two large fairings on the underside of the wings house the main landing gear. A large air scoop is mounted high on each side of the fuselage directly behind the canopy. The large vertical fin is prob ably the best recognition item, as it literally "sticks up like a monument on a pimple." SPAN: 27' LENGTH: 39' MAXIMUM SPEED: Over 590 knots ENGINE : l/J65-Wright-2/7,200 Ibs. thrust RANGE: More than 1100 nautical miles ARMAMENT: Bombs
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
DOUGLAS SINGLE-JET ATTACK BOMBER
FM 30-30 OPNAV 32P-I200/6 ARM 50-40G
A4D-1
US NAVY
SKYHAWK
ACCENTED
DRAWING
Miscellaneous views of the A4D Skyhawk
Identify the oircrorr snown above/ correct answers are below
OOQOOA '21 Ml U. S. A. SUPPLEMENT NO. 6 DECEMBER I9S6
'01 3a3iSAW '6
N3SNW '8
dfr8-d '9
iO9Vd >
HO313W 'I
NOW3Q 'L.
MMVHA»S 'S
aSiNPIH '£
OOQOOA 'I
?:*••
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
CHANCE VOUGHT
F4U-4 CORSAIR
The Corsair, a World War II fighter, is still widely used aboard carriers and in land based fighter squadrons. It is easily recognized by the inverted gull wing and fin and rudder set well forward of the projecting fuselage tip. The gull wing in ad dition to permitting the use of short landing gear struts, also is interesting from a technical view point, as it is a major factor in lowering the F4U's landing speed to below 70 knots. The wings act ing with flaps, "cup" the air, causing actual com pression a few feet before the landing. Between June 1942 and the end of the war over 10,000 F4U's had been delivered. Model F4U-5 is now in delivery to operational units. SPAN: 41'0". LENGTH: 33'3". ENGINE: R-2800/2,700 h. p. SPEED: 401 knots/31,400 ft. RANGE: 1,190 nautical miles/164 knots. ARMAMENT: 4 x 20 mm & rockets.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
CHANCE VOUGHT
USA MAY 1949
F4U-4 CORSAIR
AFM 50-40 OPNAV 32P-1200
GRUMMAN
F6F HELLCAT
The F6F Hellcat is a radial engine, low-mid-wing monoplane. The inboard panels of the wing are horizontal and the outboard panels have dihedral. From a head on view the fuselage is deep eggshaped with a high narrow cockpit. In the side view the dorsal side of the fuselage fairs into the high cockpit canopy and the fin and rudder tip is blunt. In the plan view the wing is evenly tapered with blunt tips; stabilizer and elevator are long with tapered leading edge, straight trailing edge and rounded tips. This famous fighter of World War II and successor to the F4F, is now used largely by reserves and has been replaced in the fleet by newer type aircraft. SPAN: 42'10". LENGTH: 33'7". ENGINE: R-2800/2,250 h. p. SPEED: 335 knots/17,400 ft. RANGE: 1,080 nautical miles/143 knots. ARMAMENT: 6 x .50 cal & rockets.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
GRUMMAN
USA MAY 1949
F6F HELLCAT
AFM 50-40 OPNAV 32P-1200
McDONNELL
F2H-3 BANSHEE
The F2H-3 Banshee is a modified version of the F2H. Its features have been changed outwardly by length ening the fuselage, altering the fin slope, and putting dihedral in the stabilizer. The F2H-3 is classed as a single place all-weather fighter designed for either land or carrier based operations. Its internal fuel capacity has been increased to obviate the use of tip tanks for carrier operations. Equipment includes automatic pilot, ejection seat, cockpit pressurization, and power actuation with artificial feel forces for the aileron and elevator. The F2H-3's take-off weight is a little more than the earlier Banshee's 20,000 pounds. In the F2H series the jet units are placed close to the center line of the aircraft so that very little yaw results when one engine is shut off. LENGTH: 48'2" SPAN: 41'9" ENGINE: 2/J34-WE-34/3,250-Ib. thrust each. MAX. SPEED: 505 knots/sea level. RANGE: 1,100 nautical miles/395 knots. ARMAMENT: 4 x 20 mm; 8x5" HVAR rockets.
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
259044 »—53———5
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
McDONNELL
F2H-3 BANSHEE
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
McDONNELL
F3H DEMON
The F3H Demon is a single-place swept-wing jet fighter designed for land or carrier operations. A prototype was first flown in August 1951. The sharp ly swept-back wings have a 45° sweepback and can be folded for carrier stowage. Equipment includes automatic pilot, ejection seat, and pressurized cock pit. An auxiliary power unit may be carried externally to provide for engine starting when oper ating from advance bases. Air intake for its single jet engine is through side cheek scopes with the exhaust outlet in a ventral position below the tail surfaces. Lift for landing and take-off is aided by power actuated leading edge slats and trailing edge slotted flaps. Speed brakes and power actuated controls with artificial feel forces are employed. This aircraft resembles the earlier F-88. SPAN: 35'4" LENGTH: 59'0" ENGINE: J40-WE/13,700-Ib. thrust with A. B. MAX. SPEED: More than 600 knots. RANGE: More than 1,000 nautical miles. ARMAMENT: 4 x 20 mm; rockets and bombs.
U. S. A.
SUPPLEMENT NO. JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
McDONNELL
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
F3H DEMON
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
F3H-2N DEMON
The F3H-2N Demon is a single-seat, carrier based all-weather Navy fighter designed from the Banshee and F-88. Close-up recognition features include 45° swept-wing and tail surfaces, wing leading-edge slats and trailing-edge slotted flaps, and a sharp slanting, short fuselage nose. The horizontal stabilizer is movable and can be reset for various speeds. The over-all appearance of the Demon is that of a needle-nosed projectile with an undercut tail section trailing far aft — as though it were attached to a towrope. SPAN: 35'4" LENGTH: 58'11" MAXIMUM SPEED: Over 651 knots ENGINE: l/J71-Allison-2/10,200 Ibs. thrust Afterburner RANGE: More than 1000 nautical miles ARMAMENT: 4x20mm. cannon; rockets
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
McDONNELL SINGLE-JET ALL-WEATHER FIGHTER
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
F3H-2N
US NAVY
DEMON
ACCENTED
DRAWING
Miscellaneous views of the F3H-2N DEMON
Identify the aircraft shown above; correct answers are below
U39I1 l-dlld 'L U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
VI-X 1138 '9
NOW3Q >
M39IJ. l-dlld 'I
Al 3*3iSAW •$
ISOAOHd J.3f •£
*MVHA>IS QW M FM 30-30 OPNAV 32P-1 200/6 AFM 50-40G
GRUMMAN
F7F-3 TIGERCAT
The F7F Tigercat is a mid-wing monoplane with single fin and rudder, high mid-mount wing with straight leading edge; sharply tapered trailing edge and squared off tips. Large underslung na celles project beyond the trailing edge of the wing. The fuselage is long and narrow with a two section cockpit. The long horizontal stabilizer has slightly tapered leading edge and raked tips. This is Grumman's first twin-engine fighter design since the experimental F5F Skyrocket appeared in 1940. The F7F was developed for use from carrier decks but is now used primarily as a land based night fighter by the Navy and Marines. SPAN:
51'6".
LENGTH:
45'4'/2 ".
ENGINE: R-2800/2,380 h. p. SPEED: 370 knots/19,200 ft. RANGE: 1,360 nautical miles/190 knots. ARMAMENT: 4 x 20 mm.; 4 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
GRUMMAN
F7F-3 TIGERCAT
USA MAY 1949
AFM 50-40 W 32P-1200
GRUMMAN
F8F-2 BEARCAT
The evolution of the Grumman fighter has pro duced this high speed, very maneuverable little fighter, which was with fleet units just prior to VJ-day, but too late for actual combat. Powered with the same horsepower engine as its predeces sor, the Hellcat, the Bearcat is lighter, smaller and much cleaner in design. Along with the Corsair it is the Navy's first line conventional engine carrier based fighter. Recognition characteristics are the familiar Grumman stubby fuselage, .high bubble canopy and tapered low mid-mount wing with blunt tips. The F8F-2 shown here is actually the same as the F8F-1 with the exception of two 20mm. cannon. LENGTH: 27'6". SPAN: 35'6". ENGINE: R-2800/2,380 h. p. 370 knots/19,900 ft. SPEED: 1,140 nautical miles/140 knots. RANGE: ARMAMENT: 4 x .50 cal. or 4 x 20 mm.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
GRUMMAN
F8F-2 BEARCAT
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
GRUMMAN
F9F PANTHER
F9F-5 The Panther is a carrier based single-seat jet fighter that has appeared in a number of modifications. Most of the external changes, with the exception of the swept-wing P9F-6, have been slight. A recogni tion difference, however, is the higher more pointed vertical fin and rudder of the later F9F-4, -5, modifications. The Panther, the first jet produced by Grumman, has very few of the familiar Grumman recognition characteristics. A droop snoot wing is incorporated to improve landing and take-off char acteristics. A removable nose section permits rapid changes of armament, electronic or camera equip ment to suit the type of mission. The tip tanks are not droppable in flight. The take-off weight of the Panther is more than 16,000 pounds. SPAN: 38' 0" LENGTH: 38' 10" ENGINE :{-2)/J42~P-8/5,000-lb.; (-3) /J33-A-8/4,600-lb.; (-4)/J33-A~16/5,S50-lb.; (-5)/J48~P6/6,250-lb.
MAX. SPEED: (-4)/520 knots/sea level. RANGE: 1,500 nautical miles/400 knots. ARMAMENT: 4 x 20 mm.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
Sec
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
GRUMMAN
USA
F9F PANTHER
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
F9F-8 COUGAR
The F9F-S Cougar it tne latest in the series of Navy fighters developed from the F9F-6. Com pared with its predecessors, the F9F-8 has a larger swept-back wing with cambered leadingedge extensions outboard of the wing fences. Wing slats are omitted. Increased fuselage length provides space for added fuel capacity. The over all appearance features the broad center-section wing, with its giant fillets, and the high choppedin tail that looks as if it is being "towed by a string". SPAN:34'6" LENGTH: 40'11" MAXIMUM SPEED: Over 564 knots ENGINE: 1/J48-P&W-8/7.000 Ibs. thrust RANGE: More than 1000 nautical miles
U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1954
GRUMMAN SINGLE-JET FIGHTER
N* 10-40 OPNAV 32M200/t AW KMOG
F9F 8 COUGAR
ACCENTED
DRAWING
Misce/faneous views of the F9F-8 (Lower right photo and upper left are earlier models, F9F-6)
Identify the aircraft shown above; correct answers are below
-01 -6 U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
iivonco "
N3SNV1 '9
avonco -s
AMfld > NOW3Q '£
7 AMfld 'I
-
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
US NAVY
F11F-1 TIOER
The F11F-1 is a single-seat, mid-wing super sonic fighter equipped with an "all-flying" tail and thin, sweptback wings that fold manually. A tricycle type landing gear is used with all wheels retracting into the fuselage. Recognition features include the low-set hori zontal stabilizer on the lower quarter of the aft fuselage and the sharply tapered large vertical tail that overhangs the tailpipe exhaust. The swept wings have rounded tips, distinctive droopsnoot leading edges, and abbreviated wing fences inboard of the wing tips. The fuselage is a bit on the "bulgy" side, being fattened forward of the wings by the side air inlet ducts. The long nose is smoothly tapered into a needle-type point.
u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
GRUMMAN SINGLE-JET FIGHTER SPAN: 31'8" LENGTH: 41'8" MAXIMUM SPEED: Over 660 knots ENGINE: l/J65-Wright^6/ll,000 Ibs. thrust RANGE: More than 1300 nautical miles ARMAMENT: 4x20mm. cannon
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
F11F-1
US NAVY
TIGER
ACCENTED
DRAWING
M/sce/faneout views of the FHF-J TIGER
, v
Identify the aircraft shown above; correct answers are below
l-dlld 'L
VI-X 1138 '9
AI U, S. A. SUPPLEMENT NO. 6 DECEMBER IW
NOW3Q '
rxw isoAOad iar -E
a39II l-dlld '3 )IMVHA)IS QW M FM 30-30 OPNAV 32P-I200/6 ARM SMOG
McDONNELL
FH-1 PHANTOM
The Phantom is a twin-jet, low-wing, Navy fighter plane. Two jet engines are mounted in the wing roots forming very massive wing root sections. The wings are set well back on a thin fuselage causing the aircraft to appear extremely long nosed. The dihedral stabilizer is set high to avoid the jet blast and the cockpit canopy is for ward of the wing affording excellent visibility. In . the plan view the leading edge of the wing is straight, with intakes forward of the wing break ing the straight line, and the trailing edge is ta pered. All airfoil extremities are squared. The FH-1 was the Navy's first all-jet plane to operate from a carrier. SPAN: 42'0". LENGTH: ENGINE: J30-WE/l,600-lb. thrust. SPEED: 400 knots/25,000 ft. RANGE: 600 nautical miles. ARMAMENT: 4 x .50 cal.
USA MAY 1949
37'2".
AFM 50-40 OPNAV32P-1200
McDONNELL
USA MAY 1949
FH-1 PHANTOM
AFM 50-40
32P-1200
McDONNELL
F2H BANSHEE
The F2H Banshee is a single-place twin-jet fighter similar in appearance to its predecessor the Phantom. A recognition difference is the absence of dihedral in the stabilizer of the Banshee. Its engines are almost twice as powerful as the Phantom's. Both aircraft can cruise on one or two engines. Several versions of the F2H have been produced including the F2H-2 with wing-tip tanks, F2H-2N night fighter version with longer nose for air intercept radar, F2H-2P photographic reconnaissance version with a longer heated nose for cameras. Independent retraction of the nose gear to kneel, permits compact spotting on the flight deck. Equipment includes an ejection seat and cabin pressurization. Maximum take-off weight is approximately 18,000 pounds. LENGTH: 40'2" SPAN: 41'7" ENGINE: 2/J34-WE-34/3,250-lb. thrust each. MAX SPEED: 515 knots/sea level. ARMAMENT: 4 x 20 mm; 8 x 5" HVAR rockets; 1,540-lb. maximum bomb load.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1SOO/4 AFM 50-40D
McDONNELL
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
F2H BANSHEE
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
GRUMMAN
F9F-6 COUGAR
The F9F-6 Cougar is a swept-wing higher perform ance modification of the Panther fighter. Its horizontal stabilizer is sweptback and the jet duct entrances have been modified. The new outer wing panel carries jettisonable fuel in internal bladder type cells. The Cougar has leading edge slots, under-fuselage split flaps, and wing slotted flaps. Dive brakes are installed under the fuselage. The cockpit is pressurized with temperature control and an ejection seat is fitted. A movable nose section which slides forward houses the guns and radio. The centrifugal turbojet engine is serviced or changed by removal of the tail section of the fuselage. A tricycle landing gear is fitted in the same position as earlier F9F's. The take-off weight of the Cougar is a little greater than that of the Panther. SPAN: 34' 6" LENGTH: 40' 11" ENGINE: J48-P-6/6,250-lb. thrust. MAX. SPEED: 560 knots/sea level. RANGE: 900 nautical miles/465 knots. ARMAMENT: 4 x 20 mm.
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
GRUMMAN
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
F9F-6 COUGAR
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
NORTH AMERICAN
FJ-1 FURY
The Fury is a single-engine, single-seat low-wing monoplane with short stubby, thin, high speed laminar flow wings and resembles a high "flying bomb". Air intake is located in the nose while the single-engine and fuel tanks are enclosed within the fuselage. The Fury has a high square fin and rudder, the horizontal stabilizer has dihedral and is mounted high for increased stability. For all around visibility, the cockpit has been located for ward of the leading edge of the wing. The FJ—1 with its enormous fuselage dwarfs little jets, such as, the FH-1. SPAN:
41'0".
LENGTH:
ENGINE:
J35-A/3,820-lb. thrust.
SPEED:
510 knots/sea level.
33'8".
RANGE:
1,190 nautical miles/278 knots. ARMAMENT: 6 x .50 cal.
USA MAY 1949
AFM 50-40 OPNAV 32P-1200
NORTH AMERICAN
USA MAY 1949
FJ-1 FURY
AFM 50-40 OPNAV 32P-1200
NORTH AMERICAN
FJ-2 FURY
The FJ-2 Fury is a navalized F-86 Sabre with many engineering changes inside its fuselage. Actually the swept-wing Sabre is an outgrowth of aeronautical findings in the earlier straight-wing FJ-1 Fury. Like the first Fury, it has a tricycle landing gear, but does not have the kneeling nose wheel mechanism of the straight wing model. Its normal nose-up atti tude can be increased for carrier deck catapulting. The cockpit is an entirely new design covered with an advanced designed sliding, jettisonable canopy. A Navy ejection seat is used. An improved Navy gunsight, 20 mm cannons, folding wings, and new homing radio equipment are included in the fighter's design changes. Its maximum take-off weight is 18,000 pounds. The later FJ-3 is powered with a more powerful J-65 Sapphire engine. LENGTH: 37'7" SPAN: 37'1" ENGINE: J47-GE-2/6,000-lb. max. thrust. MAX. SPEED: 595 knots/sea level. RANGE: 1,045 nautical miles/455 knots. ARMAMENT: 4 x 20 mm.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORTH AMERICAN
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FJ-2 FURY
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
CHANCE VOUGHT
F7U CUTLASS
The Cutlass is a twin-jet, single-seat, tailless, sweptback wing carrier and land based fighter. It first flew in 1948 followed by carrier landings in 1951. Control is obtained by the use of "ailevators" which combine the function of elevators and ailerons. Land ing flaps in the center section trailing edge are used as speed brakes. The main gear of the tricycle land ing gear retracts into the lower vertical fin stubs. An ejection seat is fitted. Two pylons may be attach ed to the wing for carrying bombs, rockets and missiles, and a center-line rocket package can be installed under the fuselage. Modifications include the F7U-3's high vertical fins. Maximum take-off weight is approximately 26,000 pounds. The A2U is an attack version. LENGTH: 43'2" SPAN: 39'9" 8/5,800-lb. thrust each with ENGINE: 2/J46-WEA. B. MAX. SPEED: 605 knots/sea level. RANGE: 800 nautical miles/490 knots. ARMAMENT: 4 x 20 mm; 44 x 2.75" rockets; 6,000-lb. maximum bomb load.
U. S. A.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
CHANCE VOUGHT
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
F7U CUTLASS
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
US NAVY
F8U-1
CRUSADER
: The F8U-1 Crusader is a single-seat, sweptwing, fighter designed for use by the Navy. De sign features include high thin swept wings, a rather large, faired vertical tail surface, a low fuselage-mounted horizontal tailplane, and a tri cycle landing gear that retracts into the fuselage. Performance data is classified, but the Crusader is probably above the 600 knot class. SPAN:35'8" LENGTH :54'2" MAXIMUM SPEED: Supersonic ENGINE: J57-P&W-4/10,000 Ibs. thrust/After burner
U. S. A. SUPPLEMENT HO. 6 DECEMBER 1986
CHANCE VOU6HT SINGLE-JET FIGHTER
PM 30-30 OPNAV 3SP-I200/6 APM IO-40G
F8U-1
US NAVY
CRUSADER
ACCENTED
DRAWING
Miscellaneous views of the F8U-1, CRUSADER
Identify the aircraft shown above; correct answers are below
J.VN9 -9-s U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
NriH E-rd >•£
I-QEV 7 FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
DOUGLAS
F3D SKYKNIGHT
The Skynight's principal mission is to search out and destroy enemy aircraft in all weather conditions, night or day. It is a straight, mid-wing, fighter designed to operate from aircraft carriers with the aid of a catapult or from land bases. The powerplant consists of two jet engines mounted semiexternally on either side of the lower fuselage. A large pressurized cockpit is located forward on the fuselage with the pilot and radar operator seated side by side. The cockpit has a flat armored wind screen, armored canopy roof and bulged sides. Pilot emergency escape provisions are furnished both through the power operated escape hatch and through a special high-speed, bail-out chute on the bottom of the fuselage. Speed brakes are attached just forward of the tail. LENGTH: 45'5". SPAN: 50'0". ENGINE: 2 J34-WE-38/3,500-lb. thrust each. 482 knots/11,000 ft. SPEED: 1,560 nautical miles/375 knots. RANGE: ARMAMENT: 4 x 20 mm.
*^.
fr USA JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
DOUGLAS
USA JUNE 1950
F3D SKYKNIGHT
FM 30-30 OPNAV 32P-1200 AFM 50-40A
DOUGLAS
F4D SKY RAY
The F4D Skyray is a tailless low aspect ratio singleseat carrier jet fighter. A single turbojet engine with an afterburner is installed in the fuselage. Air intakes are located in the wing roots while exhaust is made through a single tail pipe. The primary mission of the F4D is the interception and destruc tion of enemy aircraft. While the Skyray is not a delta-wing aircraft, it does resemble one in certain attitudes. Flight control is provided by means of power operated elevons. In operation these elevens perform the functions of elevators and ailerons. The outer wing panels fold up for carrier storage. A single fin is fitted, while its stablemate, the F7U tailless fighter, has two fins. Landings and takeoffs are made on a conventional tricycle landing gear. The F4D Skyray set a world speed record of 752.9 m.p.h. over a 1.863 mile course. LENGTH: 45'8" SPAN: 33'6" ENGINE: P&W J57-P-2, axial/9,600-lb. thrust; 15,000-lb. thrust with A. B. MAX. SPEED: 655 knots plus. RANGE: More than 600 nautical miles. ARMAMENT: 4 x 20 mm; rockets.
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
DOUGLAS
U. S. A. SUPPLEMENT NO. 5 JUNE 1954
F4D SKY RAY
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
US NAVY
F5D-1 SKYLANCER
The F5D Skylancer is a low aspect ratio, single seat jet fighter. The Skylancer is not a true deltawing design, though it does resemble one in cer tain attitudes. Most of the Skylancer recognition features are the same as the F4D Skyray, except the tail surfaces, which appear to extend aft of the tail pipes, and a pointed canopy.
U. S. A.
SUPPLEMENT NO. 6 DECEMBER 1956
DOUGLAS SINGLE-JET FIGHTER
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
F5D-1
US NAVY
SKYLANCER
ACCENTED
U. S. A. SUPPLEMENT NO. 6 DECEMBER 1956
DRAWING
FM 30-30 OPNAV 32P-I200/6 AFM 50-406
LOCKHEED
R60 CONSTITUTION
The Constitution, a 92-ton giant, is the Navy's larg est transport accommodating a crew of 12 and a total of 168 passengers. It is characterized by the double-deck, figure eight fuselage and the sharply tapered fin and rudder with narrow, rounded tip. The evenly tapered wings are set well back on the fuselage and are low mid-mount with full dihedral from the roots. Four P&W engines with reversible pitch inboard propellers, extend far forward of the wing's leading edge. Its short take-off require ment and long range were designed especially for operation in the Pacific areas. SPAN:
ENGINE:
R-4360/3,000 h. p.
SPEED:
266 knots/25,000 ft.
RANGE:
4,315 nautical miles/200 knots.
ARMAMENT:
USA MAY 1949
LENGTH:
189'1".
156'1".
None.
AFM 50-40 OPNAV 32P-1200
o o
10
£
u) O 10
<9
I!
o>
MARTIN
JRM-1 MARS
The latest Mars, bigger and faster than her pro totype, the "Martin Mars", is a veritable ware house with large cargo spaces and cargo doors large enough to load with ease a 20-ton tank. It has two complete decks extending almost the whole length of the fuselage and can carry cargo equivalent to four R4D's. The four engines are mid-mount and access is provided to the interior of each nacelle in flight through the wing. A total of 133 fully equipped troops can be carried in can vas bench seats which can be converted into 27 bunks. The JRM-2 has a high-mount tapered wing, single fin and rudder and a long slender hull. Wing tip floats are fixed. LENGTH: 120'3". SPAN: 200'0". ENGINE: R-3350/2,100 h. p. 191 knots/13,900 ft. SPEED: RANGE: 2,870 nautical miles/135 knots. ARMAMENT: None.
USA MAX 1949
AFM 50-40 OPNAV32P-1200
MARTIN
USA MAY 1949
JRM-1 MARS
AFM 50-40 OPNAV32P-1200
CURTISS-WRIGHT
SC-1 SEAHAWK
The Sea Hawk is a single-engine low-wing mono plane with a long single float and fixed wing tip floats. Fin and rudder are tall and narrow while the nose of the fuselage is short and blunt. Both inboard panels of the wing are straight, with dihe dral in the outboard panels. The leading edge of the wing is straight as is the trailing edge on the inboard panel. The outboard panel has a tapered trailing edge with square wing tips. The SC is the standard scout plane aboard cruisers and battle ships. However, tests are under way with helicop ters as possible replacements for the SC. A ver sion with fixed landing gear is used for land operation and is illustrated as the SC-2. LENGTH: SPAN: 41'0". ENGINE: R-1820/1,350 h. p. 210 knots/2,300 ft. SPEED: 725 nautical miles/115 knots. RANGE: ARMAMENT: 2 x .50 cal.
USA MAY 1949
36'4".
AFM 50-40 OPNAV 32P-1200
CURTISS-WRIGHT
USA MAY 1949
SC-2 SEAHAWK
AFM 50-40 OPNAV 32P-1200
GRUMMAN
UF/SA 16 ALBATROSS
The UF Albatross is a twin-engined general purpose utility amphibian designed for personnel and cargo transport, litter evacuation, and rescue operations. This aircraft originally designated XJR2F, is in service with the Navy, Air Force and Coast Guard. The Air Force designation of the slab-sided amphib ian is SA-16. The main wheels retract upward into the side of the hull, and the nose wheel retracts completely into the bottom of the hull. It has a take-off weight of around 33,000 pounds. Equip ment varies: the radome may be seen under the port wing instead of on the nose, and the external tanks may be absent or replaced by bombs or depth charges. The Albatross has been quite active in rescuing downed airmen in Korea. LENGTH: 60' 7" SPAN: 80' 0" each. h.p. 25 2/R-l,820-76A/l,4 ENGINE: MAX. SPEED: 220 knots/16,300 ft. RANGE: 2,060 nautical miles/140 knots. ARMAMENT: 2 x 325-lb. D. B.
J
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
GRUMMAN
U.S.A. SUPPLEMENT NO. 3 JUNE 1952
UF/SA 16 ALBATROSS
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
O.S.
PIASECKI
HELICOPTERS
HRP-2 (N) & H-21 (AF)
ROTOR SPAN: 44'0". LENGTH: 54'0". ENGINE: R-1820-76/1,425 h. p. SPEED: 117 knots. RANGE: 529 nautical miles.
PIASECKI ROTOR SPAN: 41'0". ENGINE: R-1340/600 h. p. SPEED: 105 knots/2,500 ft. RANGE: 260 nautical miles.
USA JUNE 1950
HRP-1 LENGTH: 48'0".
Piasecki's Streamlined "Flying Banana" is a tandem overlapping rotor, single-engine, helicopter used by both the, Navy and Air Force. Developed out of the original and famous "Flying Banana," the alum inum-fuselage seats eight passengers plus the pilot and co-pilot seated side-by-side. It is suitable for rescues and for troop-carrying assault tactics in the Marine Corps. The fuselage has a flattened V shape, fairing into a vertical fin.
The HRP-1 sometimes called the "Flying Banana" is in service with the Navy, Marine Corps and Coast Guard. It is a large fabric covered cargo or pas senger transport helicopter and the first successful tandem rotor craft to be put into production. De signed to carry a crew of two and eight passengers, the HRP-1 can also be used as an ambulance to carry six stretcher cases or to serve as a mediumrange rescue helicopter. FM 30-30 OPNAV 32P-1200 AFM 50-40A
y.s.
HELICOPTERS
y HUP-l
PIASECKI LENGTH: ROTOR SPAN: 35'0". ENGINE: R-975/525 h. p. 120 knots. SPEED: 382 nautical miles. RANGE:
SIKORSKY
HO3S-1 (N) & H-5 (AF)
ROTOR SPAN: 48'0". LENGTH: ENGINE: R-985/450 h. p. 89 knots/7,500 ft. SPEED: 380 nautical miles/68 knots. RANGE:
USA JUNE 1950
31'7".
41'3".
The HUP-l, first helicopter to loop, is an overlapped tandem rotor, single engine helicopter designed to meet requirements for shipboard operation; A fleet use for the helicopter is that of plane guard duty with aircraft carriers. Pictured here with blades folded the HUP-l occupies the minimum of space. The all-metal soundproof fuselage has nor mal accommodations for a cre\v of two and five passengers.
This conventional main rotor and tail torque rotor Sikorsky helicopter bears the civil designation S-51. It was the first Sikorsky helicoptcT to be licensed by the C. A. A. for commercial operations. In addition to its many applications in the U. S. the HO3S-1 (N) or H-5 (AF) is built in England under license by Westland-Sikorsky. In England it is fitted with a 500 h. p. Alvis Leonides engine. The mission is observation, liaison and rescue. FM 30-30 OPNAV 32P-1200 AFM 50-40A
U.S.
HELICOPTERS
BELL
H-12
ROTOR SPAN: 47'6". LENGTH: ENGINE: R-1340/550 h. p. SPEED: 90 knots. RANGE: 300 nautical miles.
BELL
HTL-2 (N) & H-13B (AF)
ROTOR SPAN: 35'2". LENGTH: ENGINE: O-335/178 h. p. SPEED: 80 knots/sea level. RANGE: 176 nautical miles/72 knots.
USA JUNE 1950
39'7".
41'3".
The Bell H-12 is a conventional main rotor and tail torque rotor helicopter designed for rescue with the Air Force. Its first hovering flight was made on 22 November 1949. The main rotor is supported by a shaft from the mid-point of the fuselage while the tail rotor is extended upward off the tail boom on an arm. A fixed quadricycle landing gear is fitted to a squat rectangular shaped fuselage which is wider than it is high.
The Bell HTI^2 (N), H-13B (AF), a two-place, single-engine helicopter intended for training pur poses, has a conventional two-bladed, see-saw main rotor with a gyroscopic action stabilizer bar. A fixed quadricycle landing gear is fitted. Improve ments over the HTL-1 (N) helicopter include improved engine cowling and a split type bubble canopy for open cockpit operation. In all, there are around 300 Bell-helicopters flying. FM 30-30 OPNAV 32P-1200 AFM 50-40A
U.S.
SIKORSKY
HELICOPTERS
HO5S (N) & H-18 (AF)
ROTOR SPAN: 33'0". LENGTH: ENGINE: O-425/245 h. p. SPEED: 109 knots. RANGE: 260 nautical miles.
SIKORSKY
HO4S (N) & H-19 (AF)
ROTOR SPAN: 53'0". ENGINE: R-1340/600 h. p. SPEED: 90 knots. ENDURANCE: 3 hours.
USA JUNE 1950
27'6".
LENGTH:
40'11".
The Sikorsky HO5S (N), H-18 (AF) is a conventional main rotor and tail torque rotor helicopter. In use by both Navy and Air Force it will accommodate a pilot, a co-pilot and two passengers or two litters. A fixed quadricycle landing gear is fitted. This helicopter made its first flight in April 1950 and an earlier version the S-52 was the first U. S. helicopter to be fitted with all-metal rotor blades.
The Sikorsky H04S (N), H-19 (AF) pictured with its clam-shell maintenance doors ajar is a conven tional main rotor and tail torque rotor helicopter. Its mission is search, rescue, and liaison. This heli copter, evolved from the smaller H-5H, has a fixed quadricycle landing gear. The main fuselage sec tion is boxlike with a round nose and accommodates eight litters and one attendant. A stabilizing fin extends out from the tail tube. FM 30-30 OPNAV 32P-1200 AFM 50-40A
U.S.
BELL HSL ROTOR SPAN: 37'6" LENGTH: 39'10" ENGINE: R-2800/1,900 h. p. MAX. SPEED: 135 knots/sea level. RANGE: 405 nautical miles. ARMAMENT: 1 x Mk.24 800-Ib. mine. GROSS WEIGHT: 14,700-lbs.
HELICOPTERS
The Navy Bell HSL is an overlapped tandem rotor, single engine helicopter designed as a search helicop ter. It carries electronic and radio equipment and a crew of three on flights which involve hovering stops a few feet above the water in order to detect the presence of submarines. The HSL's primary mission is to detect, identify, track and/or destroy enemy submarines. It may also be used for ship-to-ship, ship-to-shore liaison. The HSL is designed to oper ate from shipboard under all weather conditions.
i—
HTE (N) & H-23 (A) KILLER ROTOR SPAN: 38'8" LENGTH: 38'8" ENGINE: 0-335/178 h. p. MAX. SPEED: 73 knots/sea level. RANGE: 100 nautical miles. GROSS WEIGHT: 2,300-lbs.
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
The HTE/H-23 is a conventional main rotor and tail torque rotor helicopter. It is manufactured in two military models, one for the Navy as a twoseat training helicopter with a four-wheel landing gear. The other model for the Army is employed as an air ambulance and field evacuation helicopter. A heated litter installation accommodates two folding type litters, one on each side of the cabin. The Army's model has a wide-track skid landing gear for greater ground stability and rough terrain operation FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
U.S.
HELICOPTERS
HOK KAMAN LENGTH: 21'11" ROTOR SPAN: 50'6" ENGINE: R-975/525 h. p. MAX. SPEED: 99 knots/sea level. RANGE: 280 nautical miles. GROSS WEIGHT: 4,500-lbs.
The Navy Kaman HOK is a side-by-side intermeshing rotor helicopter with two blades. Control is maintained by means of aerodynamic servo control flaps actuated by conventional controls. A hoist of 400 pounds capacity is installed on the fuselage. The rotor blades can be positioned parallel to the fuselage to facilitate stowage. As a utility helicop ter it can carry two litters internally. The port side of the nose bubble swings open for loading and un loading;.
KAMIN HTK ROTOR SPAN: 44'8" LENGTH: 21'11" ENGINE: 0-435/255 h. p. MAX. SPEED: 77 knots/sea level. RANGE: 125 nautical miles. GROSS WEIGHT: 2,900-lbs.
The Navy Kamin HTK is a smaller brother of the HOK and operates on the same principle. The HTK's primary mission is training; however, it may be used in combat areas for general utility. A pilot, co-pilot and a student, or a litter patient plus pilot and attendant may be carried. When carrying a litter the nose bubble swings open for loading and unloading.
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 38P-1800/4 AFM 50-40D
US NAVY
The Flying Platform made, its first flight Feb ruary 4, 1955. The Nelson H-56 air-cooled engines drive co-axial contra-rotating fans enclosed in a ring or duct, the upper lip of which is flared outward. The fans create a low pressure over ±h$lip, making pressure under the lip greater (ducted fan principle). Pilot leans in direction he wishes to travel. US ARMY
FLYING PLATFORM
H-32
The H-32/Navy HOE-1 is a two-place rotary wing aircraft. Its 23 foot rotor blades are driven by small ram-jet engines located at the blade tips. The H-32 can lift more than its own weight, which is slightly over 500 pounds. Possible uses of the Hornet include training, command liaison, wire laying and aerial photography.
' U.S. .A. SUPPLEMENT NO., 6 DECEMBER 1956
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
H-34A
US ARMY
4
H-37A
u. s. A.
SUPPLEMENT NO. 6 DECEMBER 1956
The U. S. Army Sikorsky H-34A/Navy HSS-1 is a single rotor type helicopter. The main rotor and tail anti-torque rotor each have four blades. The tail section folds forward of the pylon for storing the aircraft where space is limited. The H-34A will carry 16 passengers. Navy version of the H-34A is equipped with electronic submarine detection devices.
US ARMY The H-37/Navy HR2S-1 is a twin-engine, sin gle five-blade rotor, transport helicopter. It is designed to carry twenty-six combat equipped troops or an equivalent cargo. Hydraulically oper ated nose doors are provided for loading bulky cargo or heavy equipment. Power provided by two Pratt & Whitney, R-2800 engines, give the H-37 a maximum speed of 132 knots.
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
U.S.
Security Information
LIGHTER THAN AIR
GOODYEAR ZPN LENGTH: 324'5" WIDTH: 71'4" GAS VOLUME: 825,000 cu. ft. ENGINE: 2/R-1300/800 h. p. each. MAX. SPEED: 75 knots. RANGE: 1,475 nautical miles/50 knots. ARMAMENT: 2 x Mk. 41 mines; 2,400-lb. max. bomb load.
The ZPN was designed to cooperate with other ASW air and surface craft to detect and track fast sub marines by sonar, MAD, radar and radio equipment. While the "Nan" is the world's fastest blimp, it nevertheless can hover practically motionless. Pro vision is made for surface-to-air refueling and for reballasting through pickup of ocean water. Unlike earlier blimps, a single pilot may fly the ZPN. Its two engines are mounted inside the engine room of the car and can be serviced in flight. Either engine can drive both props if necessary. Normal crew is 14.
GOODYEAR ZPM LENGTH: 310'0" WIDTH: 72'6" GAS VOLUME: 725,000 cu. ft. ENGINE: 2/R-1340/600 h. p. each. MAX. SPEED: 67 knots. RANGE: 1,420 nautical miles/50 knots. ARMAMENT: 1 x .50 cal; 2,600-lb. max. bomb load.
The ZPM is used for patrol and antisubmarine war fare. This blimp class established the world's dura tion record after more than a week of sustained flight. In the "M" and "K" class blimps the pilot works a large wheel that operates the elevators for horizontal control, while the co-pilot's wheel operates the rudder for turning. Equipment includes radar and MAD for detecting and tracking submarines, bicycle landing gear, and crew accommodations. There are four ballonets instead of the usual two and the normal compliment is ten.
U. S. A. SUPPLEMENT NO. 4 JUNE 1953
.. . , .. Security Information
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
U.S.
GOODYEAR ZPK and ZP2K LENGTH: 253'0" WIDTH: 65'0" GAS VOLUME: 456,000 cu. ft. ENGINE: 2/R-1340/600 h. p. each. MAX. SPEED: 67 knots. RANGE: 930 nautical miles/50 knots. ARMAMENT: 1 x .50 cal; 2,000 Ib. max. bomb load. The ZPK and ZP2K airships are identical in ap pearance and differ only in that the ZP2K is a
GOODYEAR ZPG LENGTH: 192'0" WIDTH: 53'6" GAS VOLUME: 196,700 cu. ft. ENGINE: 2/R-670/220 h. p. each. MAX. SPEED: 53 knots. RANGE: 350 nautical miles/40 knots. ARMAMENT: None. The ZPG was designed for training and utility. In addition to serving as an advance trainer, it has been U. S. A. SUPPLEMENT NO. 4 JUNE 1953
LIGHTER THAN AIR
modernized version. All ZPK's in time will be modernized. The ZP2K's modifications include new electronic equipment and other minor changes. Its engines remain the same. The mission of this class of blimps is patrol and antisubmarine warfare espe cially patrol and convoy escort in coastal waters. Normal crew is eight accommodated in a short car attached to tbe envelope. Envelope pressure is maintained by two air ballonets with scoops in the slip stream.
used for experimental purposes. The first "G" ship was built in 1936. Its envelope is made of threeply fabric from which the car is suspended by a combination of internal and external suspension. The car has a framework of aluminum alloy box guides with a covering of aluminum sheet and fabric. Normal crew is 5. Blimps are over hauled every two years, and each part is weighed and recorded before it goes back into the ships. FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
BRITISH COMMONWEALTH OF NATIONS AIR FORCES AND AIRCRAFT
GREAT BRITAIN (The United Kingdom of Great Britain and Northern Ireland)
The Royal Air Force
The Royal Air Force is administered by the Air Council, which is the controlling authority of the Air Ministry which, in turn, derives its authority from Parliament. The President of the Air Council, the Secretary of State for Air, is assisted by three Air Members of the Council and the Permanent Under-Secre-
tary of State for Air (Vice-President) comprising the four department heads among whom the ad ministrative duties of the Air Ministry are divided. The Marshal of the Royal Air Force is H. M. King George VI. The Royal Air Force is divided into Home Com mands and Overseas Commands.
Equipment
Type
Designation Manufacturer Medium Lincoln B. Mk. 2 A. V. Roe Bomber Washington (B-29) Boeing Light Canberra English Electric Bomber Brigand B. Mk. 1 Bristol Lancaster B. Mks. 1, 7 A. V. Roe Mosquito B. Mks. 35, 6 de Havilland Fighter Hornet F. Mk. 3 de Havilland Meteor Mks. 4, 8, 9, 11 Gloster Mosquito N. F. Mks. de Havilland 30, 36, 38 Spitfire F. Mks. 14, Viekers-Arm16, 18, 21, 22, 24 strongs Tempest Mks. 2, 5, 6 Hawker Vampire Mks. 1, 3, 5 de Havilland Reconnais 'Anson Mk. 19 A. V. Roe sance Brigand Met. Mk. 3 Bristol Halifax Met. Mk. 6 Handley Page Hastings Mk. 1 Handley Page Lancaster P. R. Mk. 1 A. V. Roe Lancaster G. R. Mk. 3 A. V. Roe Lincoln Mk. 2 A. V. Roe Mosquito P. R. Mk. de Havilland 34 Meteor P. R. Mk. 10 Gloster Shackleton M. R. A. V. Roe Mk. 1 Spitfire P. R. Mk. 19 Vickers-Armstrongs Sunderland Mk. 5 Short Bros.
Country
Type
Designation
Manufacturer
G.B. U.S.A. G.B. G.B. G.B. G.B. G.B. G.B. G.B.
Transport
Dakota (Skytrain C-47/R4D) Devon Hastings Mk. 1 Valetta
Douglas
G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B.
Naval Aviation
British Naval Aviation is administered by the Board of Admiralty through the Fifth Sea Lord (Air) who is a Vice Admiral. A Vice Admiral, subordinate to the Fifth Sea Lord (Air) is the Flag Officer (Air) (Home) and there is a Vice Admiral Commanding the Reserves. Naval Aviation afloat and overseas is adminis tered by the various Commands, the second in com mand of which is usually a Vice Admiral (Air). G.B. SUPPLEMENT NO. 2 JUNE 1951
Viking Mk. 2 York Anson Athena T. Mk. 2 Balliol T. Mk. 2 Buckmaster Chipmunk Harvard (Texan T-6/SNJ) Martinet Meteor T. Mk. 7 Mosquito T. Mk. 3 Oxford Prentice Proctor Wellington T. Mk. 10, 18 Liaison and Auster Utility Anson Helicopter Hoverfly Dragonfly (S-51) Trainer
Country
U.S.A.
de Havilland G.B. Handley Page G.B. Vickers-ArmG.B. strongs Vickers-ArmG.B. strongs A. V. Roe G.B. G.B. A. V. Roe A. V. Roe G.B. Boulton Paul G.B. Bristol G.B. de Havilland G.B. North American U.S.A. Miles Gloster de Havilland Airspeed Percival Percival Vickers-Armstrongs Auster A. V. Roe Sikorsky Westland/Sikorsky
G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. U.S.A. G.B.
Fleet Carriers (36,800 tons) : active, Eagle. Fleet Carriers (23,000 tons) : active, Indomitable, Indefatigable, and Illustrious; in reserve, Implac able, arid Formidable; undergoing modernization, Victorious; undergoing construction one 36,800ton carrier, Ark Royal. Light Fleet Carriers (14,000 tons) : active, Glory, Ocean, Theseus, Triumph, Vengeance, and Warrior; undergoing construction, Albian, Bul wark, Centaur, and Hermes. FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
RESTRICTED
Equipment
Type Attack
Fighter
Designation Avenger (TBF) Barracuda Mk. 3 Firebrand Mk. 5 Firefly Mks. 1, 5 Gannet Mosquito Mks. 6, 34 Sea Mosquito Mks. 33, 37 Attacker
Manufacturer
Country
Type
Grumman Fairey Blackburn Fairey Fairey de Havilland de Havilland
U.S.A. G.B. G.B. G.B. G.B. G.B. G.B.
Reconnaissance
Vickers-Armstrongs Fairey Firefly N. F. Mk. 1 Seafire Mks. 15, 17, Vickers-Armstrongs 45, 47 Sea Fury F. B. Mks. Hawker 10, 11 Hawker Sea Hawk Sea Hornet Mks. 20, de Havilland 21 Sea Vampire Mks. 20, de Havilland 21 Vampire Mk. 5 de Havilland Wyvern T. F. Mks. 2,4 Westland
G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B. G.B.
Designation
Manufacturer
Mosquito P. R. Mk. de Haviiland 16 Sea Otter A. S.R. Mk. 2 Vickers-Armstrongs Trainer Anson A. V. Roe Firefly T. Mk. 1, 2, 3 Fairey Harvard (Texan North American T-6/SNJ) Martinet Miles Meteor T. Mk. 7 de Havilland Mosquito T. Mks. 3 , de Havilland 39 Oxford Air Speed Sea Fury T. Mk. 20 Hawker Sea Prince Percival Tiger Moth de Havilland Liaison and Dominie de Havilland Utility Expediter (Vovager Beechcraft C-45/JRB) Auster Auster Helicopter Hoverfly Sikorsky Dragonfly (S-51) Westland/Sikorsky
Country G.B.
G.B. G.B. G.B. U.S.A. G.B. G.B. G.B. G.B. G.B. G.B. G.B.
G.B. U.S.A. G.B. U.S.A. G.B.
AUSTRALIA (The Commonwealth of Australia) The Royal Australian Air Force
The Royal Australian Air Force (R. A. A. F.) is an independent service equal in status to the Royal Australian Navy and the Commonwealth Military Forces. It is administered by the De partment of Air through the Air Board. The or
ganization of the R. A. A. F. is patterned after the British R. A. F. A member of the Australian Parliament is The Minister of State for Air. An Air Marshal is the Chief of the Air Staff.
Equipment
Type
Designation
Manufacturer
Country
Medium Bomber Light Bomber
Lincoln Mk. 30
A. V. Roe
Australia
Canberra Liberator B-24 PB4Y Beaufighter Mk. 21 Mosquito Mk. 40 Meteor Mk. 8 Mustang F-51 Vampire Mk. 30 Vampire Mks. 2, 5 Wirraway Lincoln Mosquito Mk. 41 Catalina PBY/A10
English Electric Convair Bristol de Havilland Gloster North American de Havilland de Havilland Commonwealth A. V. Roe de Havilland Convair/Boeing
Attack Fighter
Reconnais sance
Type
Designation
Manufacturer
Australia U.S.A.
Transport
Chance Vought U.S.A. North American U.S.A. Douglas U.S.A.
G.B. G.B. G.B. Australia Australia G.B. Australia Australia G.B. U.S.A.
. Trainer
Kingfisher OS2U Mustang F-51 Dakota (Skvtrain C-47/R4D) Viking
Vickers-Armstrongs A. V. Roe Anson Mosquito T. Mk. 43 de Havilland Airspeed Oxford de Havilland Tiger Moth Commonwealth Wirraway Auster Liaison and Auster Utility Bristol Freighter Westland/Sikorsky Helicopter Dragonfly (S-51)
Country
G.B. G.B. G.B. G.B. G.B. Australia G.B. G.B. G.B.
Australian Naval Aviation
The Air Arm is a postwar establishment of the Royal Australian Navy (R. A. N.) and is based on two light fleet carriers the H. M. A. S. Sydney
and the H. M. A. S. Melbourne. A Commander is in charge of Australian Naval Aviation.
Equipment
Type Fighter
Designation Sea Fury
SUPPLEMENT NO. 2 JUNE 1951
Manufacturer Hawker
Country G.B.
Type Reconnaissance
Designation Fireflv
Manufacturer Fairey
Country G.B.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
RESTRICTED
CANADA (The Dominion of Canada) The Royal Canadian Air Force
The Royal Canadian Air Force (R. C. A. F.) is an autonomous arm administered by the Depart ment of National Defense, through the Minister of National Defense, who is advised by the Air Coun cil.
A member of the Canadian Parliament is the Minister of National Defense and the President of the Air Council. An Air Marshal is the Chief of the Air Staff.
Equipment
Type Light Bomber Fighter
Reconnais sance
Transport
Designation Lancaster Mitehell B-25/PBJ Canuck CF-100 Mustang F-51 Saber F-86E Vampire Mks. 2, 3 Canso PB2B (Catalina PBY) Dakota (Skytrain C-47/R4D) Lancaster Mk. 10 Norseman UC-64 Ventura PV-l/B34 North Star (Skymaster Type C54)
Manufacturer Country A. V. Roe Canada North American U.S.A. A. V. Roe Canada North American U.S.A. Canada C.C.F. de Havilland G.B. Boeing (Sub Canada sidiary) Douglas U.S.A. A. V. Roe C.C.F. Lockheed
G.B. Canada U.S.A.
Canadair
Canada
Type
Designation Dakota (Skytrain C-47/R4D) Expediter (Voyager C--45/JRB) Goose JRF Trainer Chipmunk Anson Harvard (Texan T-6/SNJ) Liaison and Chipmunk Utility Auster Expeditor (Vovager C-45/JRB) " Norseman UC-64 Helicopter Dragonfly (S-51) HTL/H-13
Manufacturer Douglas
Country U.S.A.
Beechcraft
U.S.A.
Grumman de Havilland A. V. Roe North American
U.S.A. Canada G.B. U.S.A.
de Havilland Auster Beechcraft
Canada G.B. U.S.A.
C.C.F. Sikorsky Bell
Canada U.S.A. Canada
Canadian Naval Aviation
The Royal Canadian Navy (R. C. N.) retains an air section in its postwar organization. A cap tain is the director of the Naval Air Division.
There are two air groups which operate in turn from a light fleet carrier, the H. M. C. S. Mag nificent.
Equipment
Type Attack Fighter
Designation Firefly Mks. 1, 5 Avenger TBF Seafire Mk. 15 Sea Furv Mk. 11
Manufacturer Fairey Grumman Vickers- Arm strongs Hawker
Type Trainer
Country
G.B. U.S.A. G.B.
Designation Anson Firefly T. Mk. 1 Harvard (Texan T-6/SNJ)
Manufacturer Country A. V. Roe G.B. Fairey G.B. North American U.S.A.
G.B.
INDIA (The Republic of India) The Indian Air Force
In August 1947 the Royal Indian Air Force be came an independent service, when self-govern ment was granted to India. On 26 January 1950, with India's assumption of Republican status within the British Empire the Royal Indian Air Force became the Indian Air Force. SUPPLEMENT NO. 2 JUNE 1951
The organization of the I. A. F. is patterned along R. A. F. lines. An Air Marshal is the Chief of the Air Staff and the officer commanding the Air Force. He is directly responsible to the Gov ernment of India, with headquarters at Delhi. FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
RESTRICTED Equipment
Type
Light
Bomber
Manufacturer Convair
Designation
Liberator B-24/ PB4Y Dakota (Skytrain
Fighter
Reconnais sance
O47/R4D) Tempest Mk. 2 Spitfire Mk. 18
Country
U.S.A.
Douglas
U.S.A.
Hawker
G.B. G.B.
Vickers- Arm strongs
G.B. de Havilland North American U.S.A.
Vampire Mk. 3 Harvard (Texan T-6/SNJ)
Type Transport
Designation Dakota (Skytrain
C-47/R4D) Dove/Devon Harvard (Texan Trainer T-6/SNJ) Prentice Tiger Moth Liaison and Auster Utility Dakota (Skytrain CM7/R4D)
Manufacturer Douglas
Country
U.S.A.
de Havilland
G.B. North American U.S.A.
Percival
de Havilland Auster Douglas
G.B. G.B. G.B. U.S.A.
NEW ZEALAND (The Dominion of New Zealand) The Royal New Zealand Air Force
The Royal New Zealand Air Force (R. N. Z. A. F.) is constituted as a separate branch of the Defense Forces of the Dominion and it is admin istered by the Ministry of Defense through the Air Board.
A member of the New Zealand Parliament is the Minister of Defense and the President of the Air Board. An Air Vice Marshal is the Chief of the Air Staff and the officer commanding the Air Force. The organization of the R. N. Z. A. F. is patterned after the R. A. F.
Equipment
Type
Light Bomber Attack Fighter Reconnais sance Transport
Designation Mosquito Mk. 6 Hudson (B-34) Avenger TBF Mustang F-51 Vampire Canso PB2B (Catalina PBY) Dakota (Skytrain C-47/R.4D)
Designation
Manufacturer
Manufacturer
Country
Type
de Havilland Lockheed
G.B. U.S.A. U.S.A. U.S.A. G.B. Canada
Miles Aerovan de Havilland Dove/Devon North American Harvard (Texan Trainer T-6/SNJ) Mosquito T. Mk. 3 de Havilland Airspeed Oxford de Havilland Tiger Moth Auster Liaison and Auster
Grumman North American
de Havilland Boeing (Sub sidiary) Douglas
. U.S.A.
Utility
Country
G.B. G.B. U.S.A. G.B. G.B. G.B. G.B.
PAKISTAN (The Dominion of Pakistan) The Royal Pakistan Air Force
The Royal Pakistan Air Force (R. P. A. F.) was created in August 1947 when self-government was granted to India. It is an autonomous branch of service under the Ministry of Defense. The organization of R. P. A. F. follows closely
that of the R. A. F. An Air Vice Marshal is the commander in chief and he is directly responsible to the Pakistan Government. The headquarters of the Pakistan Air Force are at Mauripur.
Equipment
Type Light Bomber
Halifax
Handley Page
G.B.
Fighter
Attacker
Vickers- Arm strongs Hawker Hawker Douglas
G.B.
Designation
Fury Transport
Tempest Mk. 2 Dakota (Skytrain C-47/R4D)
Manufacturer
Country
G.B. G.B. U.S.A.
Type
Trainer
Designation Freighter Mk. 21 Viking Auster Harvard (Texan T-6/SNJ) Tiger Moth Furv T. Mk. 20
Manufacturer
Bristol Vickers-Arm strongs Auster North American de Havilland Hawker
Country G.B. G.B. G.B. U.S.A. G.B. G.B.
SOUTH AFRICA The South African Air Force
(The Union of South Africa)
The South African Air Force is an integral part of the Union Defense Force (U. D. F.) under the Chief of Staff. It is administered by the Minister of Defense through the Chief of the General Staff. SUPPLEMENT NO. 2 JUNE 1951
A general is the Chief of the Union Defense Forces Staff. A brigadier is the Director-General of the S. A. A. F., with headquarters at Voortrekkerhoogte, Pretoria. FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
RESTRICTED Equipment
Type Light Bomber Fighter
Reconnaissance
Designation Ventura PV-l/B-34 Anson Mustang F-51 Spitfire Mk. 9 Vampire Mk. 5 Sunderland Mk. 5 Ventura PV-l/B-34
Manufacturer Country Lockheed U.S.A. A. V. Roe G.B. North American U.S.A. Vickers-ArmG.B. strongs de Havilland G.B. Short G.B. Lockheed U.S.A.
Type Transport
Designation Dakota (Skytrain C-47/R4D) York Trainer Harvard (Texan T-6/SNJ) Tiger Moth Liaison and Auster Utility Tiger Moth
Manufacturer Douglas
Country U.S.A.
A. V. Roe G.B. North American U.S.A. de Havilland Auster de Havilland
G.B. G.B. G.B.
BRITISH AIRCRAFT DESIGNATIONS
A British aircraft is best known by its proper or popular name. Immediately upon acceptance for production this name is assigned and the speci fication number goes out of usage. The specifica tion number is assigned by the Ministry of Supply to a proposed aircraft requirement which is sub mitted by the Air Ministry in the form of a request for an aircraft of certain operational capabilities. The specification number consists of a symbol let ter, a project number, and the year. Usually the symbol letter indicates the type of the design, or it may be an "N" which implies naval aircraft design. For example, E. 10/44 was on experimen tal aircraft, project number 10, drawn up in the year 1944. This developed into the Supermarine "Attacker." Similarly N. 19/48 became the navalized "Attacker" F. Mk. 1. Proper names are assigned by the manufacturer and approved by the Ministry of Supply. Usually the manufacturer's proper names run in sequence, but there are exceptions to the rules. Nevertheless, certain well-defined "families" of names are appar ent, the lines of demarkation are more noticeable between functional groups rather than between the products of the various manufacturers. These functional groups, categorized would include bomb ers, transports, fighters, trainers, flying-boats, naval aircraft, jet engines, and miscellaneous. BOMBERS—Since before World War IIR. A. F. bombers, with a few exceptions, have been named after towns and cities, mainly of England. A few, for example, are: Wellington, Stirling, Halifax, Washington, and Canberra. TRANSPORTS—This group is named after towns or counties, such as: York, Devon, Valetta, etc. FIGHTERS—Recently a great variety of names has been given to British fighters with no over-all theme apparent. The Hawker firm has displayed consistency in naming the Hurricane, Tornado, Ty phoon, Tempest and Fury. Included in this class is Westland's Whirlwind. On the other hand Boulton Paul, Bristol and Supermarine have adopted an SUPPLEMENT NO. 2 JUNE 1951
aggressive theme with the Defiant, Beaufighter, Spitfire, Spiteful, and Attacker. More recently the jet aircraft, Vampire, Meteor, Venom and Swift have set new styles in the naming of R. A. F. fighters. TRAINERS—These aircraft are named after scholastic terms or establishments: Magister, Mar tinet, Mentor, Oxford, Dominie, Provost, Harvard, Balliol, Athena, etc. Exceptions are the Tiger Moth and the Chipmunk. The latter was designed and named in Canada and has retained its name in the R. A. F. Radio controlled target trainers: Queen Bee, Queen Wasp, Queen Martinet. FLYING BOATS—Named after seaports: Southampton, Scapa, Rangoon, Perth, London, Lerwick, Sunderland, Seaford, etc. NAVAL AIRCRAFT—The navy employs the names of birds: Baffin, Skua, Roc, Seagull, Seahawk, Wyvern, Gannet, etc. Named after fish: Swordfish, Barracuda, Shark, etc. Named after sea mammals: Seal, Walrus, Sea Otter. Conversions from R. A. F. aircraft (prefixed Sea-) : Seafire, Sea Fury, Sea Mosquito, Sea Hor net, Sea Prince, Sea Venom, Sea Meteor, Sea Bal liol, etc. Irregularities in naming naval aircraft are confined to the Firebrand, Firefly, and the At tacker. The Attacker was named, but not adopted, by the R. A. F. and has therefore not taken a "Sea" prefix for its exclusively naval use. JET ENGINES—Rolls-Royce, for example, name their jet engines after British rivers: Nene, Derwent, Avon, etc. MISCELLANEOUS — Helicopters: Hoverfly, Dragonfly, Sycamore, Skeeter. Troop gliders: Hamilcar, Hadrian, Horsa, Hengist. R. A. F. aircraft of the past decade or so that have not fallen into any of the foregoing categories are mostly named after famous persons of the past: Anson, Shackleton, Beaufort, Brigand, etc. Of extreme importance are the mark numbers which appear in numerical sequence. The prolific "Mosquito" is a splendid example of how numer ous mark numbers can become. Today there are FM 30-30 OPNAV 32P-I200/2 AFM 50^406
RESTRICTED
about a dozen different versions of this aircraft still in operational service in the Royal Air Force arid in other air forces throughout the world. "Mosquito" mark numbers run from 1 to 43, ineluding the Canadian- and Australian-built versions XT ' , . . , . „ . „ . .. , Naval versions of certain R. A. F. aircraft have ,,...,.. • . , . .. • , i • , their imtial mark number stepped up fairly high to allow for the individual expansion of each series: Seafire Mks. 45, 46, 47; Sea Fury Mks. 10, 11, 20; Sea Vampire Mks. 20,21; etc. ' ' . Additional mark numbers are introduced when .,..., major modifications occur in the basic type. These modifications are made to effect a change of operational role, substantially improved performance or the construction of the type by manufacturers abroad. In the latter case the purpose is ,.
.
si.,
to allow for flexibility of design away from the parent manufacturer without confusion on spare parts. Apparent irregularities of mark numberings become obvious with these overseas versions which, like the Navy types, commence their series j, , , . .,. , . .. of mark numbers at 10, or multiples of 10 up to 60. Mark numbers were formerly indicated by Roman numerals up to 20, and afterwards by Arabic numerals; since 1948 Arabic numerals are used exclusively.
In order to indicate the function of the aircraft, • j. JM. v. ,, , , , , . . , ,
it often happens that a type symbol is interposed between the general name and the mark number. For instance the complete designation of a well known de Havilland long-range photographic reconnaissance aircraft is "Mosquito" P. R. Mk 34 Likewise, the first production "Sea Mosquito," a naval adaptation of the R.A.F. "Mosquito" fighter
bomber Mark 6, was designated "Sea Mosquito" T. F. Mk. 33.
D.H. 98——Sea Mosquito———T. F.————Mk. 33 J [ | ManufacProper Type Version turer's Name (Torpedo No. Designation Fighter)
Actually there is little difference between R.A.F. •, ,-,, , .. . ,. ,. „, . ,.. an« Fleet Air Arm designations. The prime differens mission The following is a com. bined Hgt f thege bolg and ^ explanations . „ , , D Type symbol: Purpose ,A.................................... Light T . , Military „,.,. A.O.P.............................. Air Observation Post A.S..———...———__——— Anti-Submarine A.S.R...————................. Air-Sea Rescue B.................................... Bomber C —————————- Transport C.X————————_——_——. Transport Glider E................ Experimental F....————_—————_.. Fighter F.B.——————__———_.._ Fighter Bomber F.E.—————————— Far East Operations F.R................................. Fighter Reconnaissance G.R.. ._-. _-_. . _ . General Reconnaissance GT Glider Tu RC--~~ -------- Helicopter Casualty H.F................................. High Altitude Fighter H.R___——————.__.... Helicopter Reconnaissance L.F........._..____„.______..... Low Altitude Fighter
MET............................... Meteorological Reconnaissance M.R-.—.——-.-——_——.. Maritime Reconnaissance
N N.F...................._............. P.R. ..........—-.._.-........... R_...—...—........__.—......... R.F.......__........................ «-------------
Nav Night Fighter Photo Reconnaissance Reconnaissance Reconnaissance Fighter ^^' ^-opter
T^RV.V.V.".""."."."!!."!!!!."!."!."." Torpedo Bomber Reconnaissance
T.F......................._......... Torpedo Fighter T.F.B.-.—................—...... Torpedo Fighter Bomber
Meanwhile, there are the manufacturers' designations (Vickers 660, SR. 45, etc.). These are of
T.R.....—.....—......._....._... Torpedo Reconnaissance T.T................................. Target Towing
military designations. Nevertheless, it remains that the manufacturers do maintain a prerogative of assigning designations to their aircraft, but they are primarily used as serial numbers for factory references and records. For instance the "Mosquito" built by de Havilland has a manufacturer's designation D. H. 98. These designations usually consist of the manufacturers' symbol or complete name, followed by a number. Moreover, they cannot be ignored for in print it is not uncommon to see the manufacturers' designation preceding the military designation. Thus, the complete story can be told in the following diagram:
The majority of aircraft, when manufacturers' designations appear, are characterized by the manufacturers' names, such as Supermarine builder of the "Attacker," and only a few manufacturers use symbolic letters. Airspeed........................-.....—.———.————— A.S. JTS Whitworth--------------- ^ BiackbJ^n^ & Ge^raLZ--"-!"-"-""---- B. de Havilland——.—————————————— D -H. Elliotts of Newbury———————————— Eon. JT' Ajrcraft----------------- Jp'L ' M^rtii^Bal^.V.V.V.!!!!!!"!!!!!!!!!!".!"."."-'."."-".-".'.".".!".".".".'.".!".!!". M.B. Miles.............—..—————-————————— M.
j t •.-.,. secondary importance and have no bearing on the
SUPPLEMENT NO. 2 JUNE 1951
TX
Training Glider
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
Percival—____.._._..............._—————— ———_ P.
Saunders Roe (Saro),......._.........._.....__.._.___... SR. Short Bros. & Harland (Short)—————————- S; SA.
Vickers...—.__—_———————...———__.——_—— V.C.
Definite establishment of a British naval air craft's home base can be determined by a letter or letters carried on the fin. These denote the air craft carrier or air station to which the aircraft belongs. The following list of letters are those worn by aircraft from carriers operated by the Royal Navy: A....——.......... B.___.._——_.__— C...————..... D.................... F.................... G.................... K.__..__———____ O..__._————_____
H.M.S. Indomitable H.M.S. Indefatigable H.M.S. Implacable H.M.S. Illustrious H.M.S. Formidable H.M.S. Victorious H.M.A.S. Sydney (Royal Australian Navy) H.M.S. Ocean
P—_...————___ H.M.S. Triumph
Q____.—.____ R................... T————__._...... V——................ W__..__—.......... X_———————_.
H.M.S. Vengeance H.M.S. Glory H.'M.S. Theseus H.M.S. Venerable H.M.S. Warrior H.M.C.S. Magnificent (Royal Canadian
Y_.____.__.._.__._.__ H.M.S. Unicorn
Navy)
Naval aircraft operating from shore bases carry the following combinations of letters: AC__.._._.—————————————————— AH_.__....______—_.-_-_-_-._-_. OH.....—————.——..—————————.——. CW_.___.——————.——————————————. DO...—..——————.——————————— FD————————————————————— GJ-...———————————————————— ,TA—.———.—————————————.——
' JB——.—————————————————— JR__.____________________________ LM____._____________________ LP_._.—_.___.__.____—.__-._.__VL.————...—————————————————
SUPPLEMENT NO. 2 JUNE 1951
Abbottsinch Anthorne Culham Culdrose Donibristle Ford Gospart Stretton St. Merryn Eglington Lossiemouth Lee-on-Solent Yeovilton
Royal Navy and Royal Air Force aircraft in pro totype form have a large circled © on the side of the fuselage. CANADA
Canada uses both American and British prin ciples in aircraft designation. The Canadair DC4M, Canadian-built "Skymaster" C-54/R5D type with Rolls-Royce engines, is known in the Royal Canadian Air Force as the C-54GM, while the DHC-1 manufactured by the de Havilland Air craft of Canada is known as the "Chipmunk." Canada's newest transport constructed by A. V. Roe, is designated Avro C-102 Jetliner. It has the.distinction of being the first all-jet commercial aircraft to be designed, built and flown in the West ern Hemisphere. An experimental twin-jet allweather fighter designated CF-100 Canuck is an other of Avro's projects. Factory designations are abbreviated as follows: A. V. Roe Canada.———-___.——____..._ Northwest Industries..—________________ Canadian Car & Foundry...—_____________ Canadair——__.„—_._____._____._.__ Cancargo Aircraft Manufacturing--_...——._ Club Aircraft, Transvision-Television—___„__.____. de Havilland Aircraft Canada...——____________ Found Bros. Aviation..——_..._......______...
Avro C. Bellanca C.C.F. Canadair Cancargo Club D.H.C. Fount!
AUSTRALIA
Australia uses manufacturers' designations; an example would be the de Havilland DHA-3 Drover. The 'two primary aircraft manufacturers in Aus tralia are: de Havilland Aircraft—————————————— D.H.A. Commonwealth Aircraft—_______-____._____ C.A.
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
LINCOLN 2
A. V. ROE
The Lincoln II is the same in appearance as the Lincoln I, a development from the Lancaster. It is a four-engine mid-wing bomber. In-line en gines are fitted. The wing tapers from inboard nacelle out on both leading and trailing edges to well rounded tips. A center section has straight leading and trailing edges. The fuselage is long and rectangular with nose, dorsal and rear tur rets. Twin-tails and retractable conventional land ing gear are fitted. A maximum bomb load of 22,000 pounds may be carried. The Lincoln was intended for use in the Pacific Theater, but ap peared just too late to be flown operationally. SPAN:
120'0".
ENGINE: SPEED: RANGE:
78'4".
Merlin 68; Vee in-line/1,635 h. p. 260 knots/20,000 ft. 2,540 nautical miles/175 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
4 x .50 cal; 2 x 20 mm.
AFM 50-40 OPNAV 32P-1200
A. V. ROE
G.B. MAY 1949
LINCOLN 2
AFM 50-40 OPNAV32P-1200
A. V. ROE
SHACKLETON
The Shackleton, a medium bomber developed from the Lancaster and Lincoln bombers, is to be used by the RAF Coastal Command on reconnaissance duties and for shadowing and striking at surface and underwater vessels. It will be one of the most powerful reciprocating engined aircraft in the RAF. The four engines coupled to four sixbladed contra-rotating propellers, provide 10,000 h. p. for take-off. A tail wheel landing gear is used to facilitate easier stowage of bombs. Equipped for all weather operation, the chin type radorne forms a good recognition detail. The Shackleton has a bulkier fuselage than the Lincoln and a wider stabilizer. Fins and rudders are also larger and rounder.
LENGTH: 77'6". SPAN: 120'0". ENGINE: 4/Griffon 57 in-line/2,500 h. p. each. 260 knots/10,000 ft. SPEED: RANGE: 3,700 nautical miles/170 knots. ARMAMENT: 4 x 20 mm; 2 x .50 cal.
G.B. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
00
o o
LU
oiZ
A. V. ROE
VULCAN
The Vulcan is the first jet bomber to use delta-wing configuration. It is powered by four 'jet engines buried near the wing roots. Aerodynamic qualities of the delta-wing bomber were determined by small er delta-wing Avro 707 's. A two-seat 707 trainer version will be used to train pilots to fly the large delta-wing bomber. Recognition-wise, the large Vulcan appears to be an almost-perfect scaled-up version of the 707's. The bomber features a twinnose wheel landing gear retracting backward, with the main gear located in the delta-wing. Entry by the crew is made in front of the nose wheel. Bomb bay doors are located between the vertical fair ways of the engine tail pipes. A noticable fea ture of this aircraft is its retractable dive brakes. The development of a passenger version is under consideration by Avro. LENGTH: 95'6" SPAN: 99'0" ENGINE: 4/R. R. Olympus/10,000-lb. thrust each. MAX. SPEED: 520 knots plus. RANGE: More than 3,500 nautical miles. ARMAMENT: Bombs.
U.K. SUPPLEMENT NO. 5 JUNE 1954 305799 O—54———5
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
A. V. ROE
G. B. SUPPLEMENT NO. 5 JUNE 1954
VULCAN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
HANDLEY PAGE
VICTOR
The Victor is a four-jet bomber with a swept-back T-tail and a so-called "crescent wing" in which the angle of sweep back is greater at the root and progres sively less towards the tip. Advantages claimed for this type of wing include the retention of the neces sary wing thickness for the required structural strength, and adequate internal stowage space. It also provides for the delay in the compressibility drag rise obtained with a highly swept-back wing for a high Mach number. In addition, the Victor has high lift devices incorporated in both the leading edges and trailing edges of the wings. A bulbous chin encloses long-range bombing aids and the nose wheel. The small aperture in the leading edge of the swept-back fin could be for admitting air for a control balancing system. A transport version, the H. P. 97 Atlantic is planned. LENGTH: 116'H" SPAN IIO'O" ENGINE: 4/A. S. Sapphire/10,000-lb thrust each. MAX. SPEED: 520 knots plus. RANGE: More than 3,500 nautical miles. ARMAMENT: Bombs.
G.B. SUPPLEMENT NO. 5
JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
HANDLEY PAGE
G. B. SUPPLEMENT NO. 5 JUNE 1954
VICTOR
FM 30-30 OPNAV 32P-T 200/5 AFM 50-40E
VICKERS
VALIANT
The Valiant is a four-jet swept-wing medium-bomber designed for the RAF bomber command. A proto type flew for the first time in May 1951. The jet engines are buried neatly in the wings near the fuselage. As a result of air intake trouble with a prototype Valiant, the production B.I version features larger air intake jet openings. A long nose protrudes forward with a cockpit rising over the nose section. The fin and rudder are angular with a high-set horizontal stabilizer. Nacelles housing rearward-retracting bogie main landing gear units are noticeable on the trailing edge of the wings of the B.2. A small boundary-layer fence is located outboard on each wing. In some respects the Soviets new swept-wing medium jet bomber (Badger) is similar to the Valiant B.2. Both aircraft have buried jet engines, rearward protruding nacelles, and a long nose section. LENGTH: 108'3" SPAN: 114'4" ENGINE: 4/R. R. Avons RA 14/9,500-lb. thrust each. MAX. SPEED: 460 knots plus. RANGE: More than 3,000 nautical miles. ARMAMENT: 10,000-lb. bomb load.
G. B.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
VICKERS
G. B. SUPPLEMENT NO. 5 JUNE 1954
VALIANT
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ENGLISH ELECTRIC
CANBERRA
The Canberra is a twin-jet mid-wing light bomber. It was first flown on 13 May 1949. This first Brit ish jet bomber was developed to meet the require ments for a high altitude light bomber, which would rely entirely on speed and high performance at its operating altitude for defense. The fuselage is cigar-shaped with a jettisonable teardrop canopy situated in the nose section. Both pilot and navi gator have ejector seats for an emergency escape. Most unconventional feature of the Canberra is the variable incidence stabilizer, for positive con trol at high speeds. In some versions a dorsal fin fairing is fitted and in the B. Mk. 2 there is a transparent nose. A tricycle landing gear is fitted. The Canberra is being produced by Glenn L. Martin for the U. S. A. F. with the designation B-57A. It can be fitted with wing tip tanks. LENGTH: 65'6". SPAN: 63'11". 2/R.R. Avons/6,000-lb. thrust each. ENGINE: MAX. SPEED: 490 knots plus. RANGE: Approx. 2,600 nautical miles/425 knots. ARMAMENT: None.
G.B. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
ENGLISH ELECTRIC
CANBERRA
G.B. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
DE HAVILLAND
MOSQUITO B. 35
The Mosquito B.35 is a two-engine, mid-wing monoplane bomber. It has a sharp pointed nose, and the engines extend forward of the fuselage. The wings are sharply tapered on the trailing edge to rounded tips. There is a raised cockpit on the streamlined tapered fuselage. A single tail and retractable conventional landing gear are fitted. The main landing gear retracts into nacelles. A maximum bomb load of 4,000 pounds may be car ried. There are many versions of the Mosquito, including the night fighter N.F.38, which has an enlarged nose and lengthened cockpit canopy and carries 4 x 20 mm. cannon fixed in the lower nose. SPAN:
54'2".
ENGINE:
LENGTH:
44'6". Merlin 113,114; Veein-line/1,535 h. p.
SPEED:
365 knots/30,000 ft. RANGE: 1,780 nautical miles/270 knots. ARMAMENT: Maximum bomb load 4,000 Ibs.
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
G.B. MAY 1949
MOSQUITO B. 35
AFM 50-40 OPNAV 32P-1200
SUNDERLAND 1 & 3
SHORT BROS.
The Sunderland is a four-engine high-wing flyingboat. Both inboard engine nacelles are aligned slightly forward of the outboard engine nacelles. The wings taper on both leading and trailing edges to well rounded tips. A two-step hull is utilized; and nose, tail, and dorsal turrets are fitted. There is a tail fin and rudder. The stabilizer and elevator are similar to the wing in shape. The Sunderland is virtually a military version of the "Empire Boat." A prototype first flew in 1937 and by the outbreak of the war there were several squadrons in service. SPAN:
85'4".
ENGINE:
Pegasus 18; radial/1,050 h. p.
SPEED:
182 knots/6,500 ft.
RANGE:
1,550 nautical miles/120 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
112'9".
7 x .303 cal.
AFM 50-40 OPNAV 32P-1200
SHORT BROS.
SUNDERLAND 1 & 3
'•• •.%':.
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
VICKERS-ARMSTRONGS
SPITFIRE 24
The Spitfire 24 is a single-engine low-wing fighter. The wing is elliptical in plan form on both leading and trailing edges. A five-bladed propeller is fitted on a liquid-cooled in-line engine. Prominent fea tures are two large airscoops fitted under the wings near the fuselage. A bubble canopy is fitted. There is a single tail. A retractable landing gear and tail wheel are utilized. The prototype of the Spitfire first flew in March 1936 and since that time it has undergone continuous development to maintain its place in the front rank of the world's fighter aircraft. SPAN:
36'11".
32'11".
ENGINE:
Griffon 61; Vee in-line/1,540 h. p.
SPEED:
391 knots/18,600 ft.
RANGE:
840 nautical miles/213 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
4 x 20 mm.
AFM 50-40 OPNAV 32P-1200
VICKERS-ARMSTRONGS
G.B. MAY 1949
SPITFIRE 24
AFM 50-40 OPNAV 32P-1200
GLOSTER AIRCRAFT
METEOR 4
The Meteor 4 is a twin-engine, low-wing, jetpropelled fighter. The wings taper on leading and trailing edge to rounded tips. Some models have square tips. Both engines are fitted on the wings with the air inlet extending forward of the leading edge and the exhaust outlet extending well beyond the trailing edge. The fuselage is rather slender with a prominent canopy near the nose and a tri cycle retractable landing gear. A single tail is fitted, with the horizontal stabilizer high on the vertical fin. The Halford-engined Meteor was the first version of the Meteor to fly (3-5-43), and the only Allied jet-propelled airplane to see service in World War II. LENGTH: 41'0". SPAN: 43'0". ENGINE: 2 Derwent 5 turbo-jets/3,600-lb. thrust. 506 knots/sea level. SPEED: 510 nautical miles/330 knots. RANGE: ARMAMENT: 4 x 20 mm.
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
GLOSTER AIRCRAFT
G.B. MAX 1949
METEOR 4
AFM 50-40 OPNAV32P-1200
GLOSTER
METEOR F. MK. 8
The Meteor F. Mk. 8, a twin-turbojet single-seat fighter, is a progressive development of the Mk. 4. Outwardly the most striking difference lies in the redesigned fin, rudder (now squared) and sta bilizer, but a further departure in outline may arise from the fitting of wing drop-tanks. The Mk. 8 incorporates a longer nose than the two pre vious versions to accommodate an extra fuel tank. It has a pressurized cockpit covered by a single piece jettisonable hood of improved aerodynamic form. A Martin-Baker ejector seat is fitted. Me teors are to be seen in many models and roles. There are the recent photographic and fighterreconnaissance types, the Marks 9 and 10 and the N. F. Mk. 11 described elsewhere. This aircraft is operational with the British, Belgian, Dutch, and Danish Air Forces. It is also in service with the Royal Australian Air Force in Korea. SPAN: 37'2". Length: 44'7". ENGINE: 2/R.R. Derwents/3,600-lb. thrust each. MAX. SPEED: 520 knots or Mach. 0.82. RANGE: 510 nautical miles/330 knots. ARMAMENT: 4 x 20 mm. plus 16 rockets.
G.B. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
GLOSTER
G.B. SUPPLEMENT NO. 2 JUNE 1951
METEOR F. MK. 8
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
ARMSTRONG WHITWORTH
METEOR N.F.MK. 11
The Meteor N. F. Mk. 11 is a twin-turbojet lowwing night fighter. This version employs a Mk. 7 type two-seat cockpit and canopy, seating a pilot and radar operator, a modified Mk. 3 type longspan outer wing and a Mk. 8 type tail-unit. Ex tensive modifications have been made to include the radar equipment in the extended nose (105"), resulting in the four-cannon armament being dis placed to the outer wings. Three droppable fuel tanks, one under the fuselage and two under the wings, may be carried. Maximum take-off weight with external tanks for the various Meteors runs around 18,000 pounds. The Meteor N. F. Mk. 11 is one of the fastest British night fighters in opera tion. A highly pressurized cockpit with heating, anti-icing and de-misting systems is provided. SPAN: 43'0". LENGTH: 48'6". ENGINE: 2/R.R. Derwents/3,600-lb. thrust each. MAX. SPEED: 520 knots. RANGE: Approx. 1,000 nautical miles/330 knots. ARMAMENT: 4 x 20 mm.
G.B. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
ARMSTRONG WHITWORTH
G.B. SUPPLEMENT NO. 2 JUNE 1951
METEOR N.F.MK. 11
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
DE HAVILLAND
VAMPIRE 3
The Vampire 3 is a mid-wing, single-engine, jetpropelled, twin-boom fighter. The wings are evenly tapered from the roots where the air in takes are accommodated, to the rounded tips. A pilot's pressurized cockpit is ahead of the wings leading edge affording excellent visibility. Twin fins and rudders are mounted above the tail booms with a single elevator between. In March 1948, a Ghost-engined Vampire flew to 59,492 feet for an International Altitude Record. In addition to being in RAF service, the Vampire has been adopted as a standard fighter type by many of the European and Scandinavian countries. LENGTH: 30'9". SPAN: 40'0". ENGINE: Goblin 2 turbo-jet/3,100-lb. thrust. 470 knots/20,000 ft. SPEED: RANGE: 807 nautical miles/391 knots. ARMAMENT: 4 x 20 mm.
G.P. MAV1949
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
G.B. MAY 1949
VAMPIRE 3
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
VENOM
The Venom, a higher powered development of the Vampire, incorporates a new thin-section wing with moderate leading edge sweepback. A first flight was made on 2 September 1949. It is classed as a mid-wing single seat fighter and although designed, for high-performance work, the Venom under service conditions may be called upon to fill many roles. Provision has been made, in the original design, for the mounting of bombs and rocket pro jectiles so that the Venom is instantly convertible into a ground-attack aircraft. The mounting of the drop tanks on the wing tips means that the bombs can be accommodated without a reduction in the tank capacity available, thus ensuring the maximum radius of action for low altitude and ground-support duties. LENGTH: SPAN: 41'11". ENGINE: Ghost/5,000-lb. thrust. More than 500 knots. SPEED: RANGE: ARMAMENT: 4 x 20 mm.
C* R
JUNE 1950
31'6".
FM 30-30 OPNAV 32P-1200 AFM 50-40A
o
ir> O>
HAWKER AIRCRAFT
HUNTER
The Hunter is a single-seat swept-wing single-jet fighter with air intakes in the wing roots. This air craft is a progressive development of a series of jet fighters. A feature of this single-seat fighter is the extension of the cockpit fairing into an extended dorsal strake leading into the raked fin. The hori zontal tail surface is attached to the fin just above the fuselage. A tricycle landing gear is fitted with the main gear attached to the outer wing panels and folding inward. The nose wheel is directly below the cockpit and retracts backward. This aircraft formerly designated P. 1067 is in production for the R. A. F. and the Dutch A. F. A stablemate with similar performance is the Swift. On 7 September 1953 a speed record of 727.6 m. p. h. was set by a Hunter. Eighteen days later it was broken by a Swift with a speed of 737.3 m. p. h. The U. S. Navy Skyray later broke the record at 752.9 m. p. h. LENGTH: 42'0" SPAN: 33'6" ENGINE: R. R. Avon/6,500-lb. thrust. MAX. SPEED: 640 knots plus. RANGE: ARMAMENT: 4 x 30 mm.
G. B.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
HAWKER AIRCRAFT
G. B.
SUPPLEMENT NO. 5 JUNE 1954
HUNTER
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
VICKERS ARMSTRONGS
SWIFT
The Swift is a single-seat jet fighter which was developed from a series of Supermarine prototypes. This swept-wing jet (37° sweep) and its stablemate, the Hawker Hunter, were both designed to the same Ministry of Supply specification. These two similar types perpetuate the standard set prior to World War II when their ancestors, the Spitfire and Hurri cane appeared. The Swift differs from the mid-wing Hunter in that it has a low-mounted swept-wing. In the Swift the earlier Navy Attacker's fuselage has been retained almost unchanged. The principal difference is the Swift's cheek scoops and bifurcated air duct for its single jet engine, while the Hunter features wing root intakes. The Swift broke the Hunter's speed record by averaging a speed of 737.3 m. p. h. This record was broken by the U. S. Navy's Skyray record run of 752.9 m. p. h. A 15-kilometer course record 754.98 m. p. h. is held by the F-100. LENGTH: 41'6" SPAN: 33'1" ENGINE: R. R. Avon/6,500-lb. thrust. MAX. SPEED: 640 knots plus. RANGE: ARMAMENT: 4 x 30 mm.
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^^S^^JS^^feA^-"' '"' ^ ^ <
^^^:,i»^©s!^^^^^«fev~^z~__s^iyL,..~ G. B. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
VICKERS ARMSTRONGS
G. B. SUPPLEMENT NO. 5 JUNE 1954
SWIFT
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
GLOSTER
JAVELIN
The Javelin is the world's first delta-winged twin-jet fighter. It was designed as a heavy interceptor and patrol fighter with all-weather capabilities for use against high altitude enemy bombers. A pilot and radar operator are necessary to man the fighter. They sit in tandem in a fully pressurized and heated cockpit necessary for flights at altitudes in excess of 50,000 feet. The Javelin's tricycle landing gear has a wide track and retracts inward. In plain view the aircraft resembles an arrow-head and when viewed in flight from the rear, its flat appearance gives the impression of a striking cobra. The pro duction Javelin has a clear-view canopy. It also has the standard "cranked" wing and four 30 mm Aden cannons in the leading edge. All controls of the It has Javelin are power-operated or boosted. dive. exceeded the speed of sound in a shallow LENGTH: 57'0" SPAN: 52'6" ENGINE: 2/A.S. Sapphire 18,300 Ibs. thrust each. MAX. SPEED: More than 600 knots. RANGE: ARMAMENT: 4 x 30 mm; missiles.
G. B.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
GLOSTER
G. B. SUPPLEMENT NO. 5 JUNE 1954
JAVELIN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
GREAT
BRITAIN
DH-110 VIXEN
The D.H. 110 is a two-seat all-weather fighter designed for use by the Royal Navy. It is equipped with the latest electronic combat and navigational aids. A "flying tail" has recently been fitted to in crease maneuverability through supersonic speeds. SPAN: 51'. LENGTH: 52'1%" ENGINE: 2/Avon Rolls-Royce
6REAT BRITAIN The Gnat is a single-seat aircraft designed for either interceptor or ground-attack duties. Recog nition features of the Gnat include sweptback wings mounted "shoulder high" on the fuselage; pipe-like fairing on the top fuselage from the cockpit to the vertical tail surfaces; air inlet ducts on each side of the fuselage; and horizontal tail surfaces located on the lower third of the aft fuselage. SPAN: 20'8" LENGTH: 29'4" ENGINE: I/Bristol Orpheus
U.K.
SUPPLEMENT NO. 6 DECEMBER -J956 '
GNAT MIDGE
FM 30-30 OPNAV 32P-1200/6 ARM 50-40G
p-1
BRITANNIA
U. K.
SUPPLEMENT NO. 6 DECEMBER 1956
GREAT
BRITAIN
The English Electric P-1 is a single-seat, twin jet designed as a supersonic interceptor-fighter. Close study features are sweptback wings mounted aft of the cockpit slightly above the fuselage mid-point; a triangular shaped vertical fin; sweptback horizontal tail surfaces mounted a fractional distance above~~the bottom* rear fuse lage; a pear-shaped nose air inlet; and engine tail pipes set one over the other and extending well aft of the tail surfaces (like the "over and under" shot gun barrel).
GREAT BRITAIN The Bristol Type 175 Britannia is a turboprop cargo or passenger type transport aircraft de signed primarily for use by British airlines. Recognition features of the Britannia include the "longer-than-usual" extensions of the engine nacelles ahead of the wings; the large vertical tail surfaces; and the engine exhausts that extend over the wing trailing edge. SPAN: 140' LENGTH: 124'3" ENGINE: 4/Bristol Proteus 755/4150 ehp MAXIMUM SPEED: 350 knots RANGE: 3,150 nautical miles/still air/30,000 ft.
FM 30-30 OPNAV 32P-1200/6 ARM 50-40G
YORK
A. V. ROE
The York is a high-wing, four-engined transport monoplane. The wings taper slightly, more on the leading edge than the trailing edge, to rounded tips. The inboard engines are slightly forward of the outboard engines. The fuselage is of rectan gular cross section. There are three fins and two rudders with the fin over the fuselage center line being fixed. The landing gear is of conventional construction. The York was developed from the Lancaster bomber and includes a larger fuselage. This aircraft is widely used by the RAF and by numerous airlines. As a passenger version it will accommodate 21 passengers. LENGTH: 78'6". 102'0". ENGINE: Merlin 24; Vee in-line/1,620 h. p. 250 knots/15,000 ft. SPEED:
SPAN:
2,260 nautical miles. ARMAMENT: None.
RANGE:
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
A. V. ROE
YORK
G.B. MAX 1949
AFM 50-40 OPNAV 32P-1200
HANDLEY PAGE _._ . . . ._.._._
Mpii
HASTINGS
The Hastings is a low-wing, four-engine, long range military transport. The wings taper sharply on the leading edge to rounded tips. All engines are underslung on the wings with the inboard na celles slightly forward of the outboard nacelles. The fuselage is circular in cross section. There is a single fin and rudder with a horizontal stabilizer tapering on the leading edge to rounded tips. A conventional landing gear is utilized. The Handley Page Hastings is employed as a freighter, paratroop transport, ambulance, troop carrier, supply dropper and glider tug. SPAN:
US'0".
82'2".
ENGINE:
Hercules 100; radial/1,675 h. p.
SPEED:
304 knots/20,000 ft.
RANGE:
2,500 nautical miles/205 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
None.
AFM 50-40 OPNAV 32P-1200
HANDLEY PAGE
G.B. MAY 1949
HASTINGS
AFM 50-40 OPNAV 32P-1200
A. V. ROE
TUDOR 4
The Avro Tudor 4 is a low-wing, four-engined transport monoplane. The wing consists of three sections, a rectangular center section and outer sections tapering sharply on the leading edges with trailing edges straight. Both wing tips are rounded. The inboard engine nacelles are slightly forward of the outboard nacelles. The fuselage is all metal and circular in the cross section. A single high fin and rudder and an evenly tapered hori zontal stabilizer are fitted. There are many models of the Tudor and the first type 688 Tudor I was conceived in 1943 as a commercial conversion of the Lancaster for use over the North Atlantic. SPAN:
79'6".
ENGINE:
Merlin 621; Vee in-line/1,740 h. p.
SPEED:
240 knots/20,000 ft.
RANGE:
2,910 nautical miles/180 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
120'0".
None.
AFM 50-40 OPNAV 32P-1200
A. V. ROE
TUDOR 4
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
COMET
The Comet is the world's first jet transport to be placed in scheduled service. This service was in augurated by B. O. A. C. in May 1952 on the LondonJohannesburg route. The Comet, slightly smaller than the Constellation, has very thin wings and the engines are placed close to the fuselage in semiburied installations. While its wings have moderate sweep-back, the tail surfaces are straight. Controls are power-operated and the cabin is pressurized. Some Comets have rocket installations between the engines. A long-range series 2 has been developed. Both series are available in 36 and 48 seat versions at a take-off weight of approximately 110,000 pounds. Britain, France, Canada, and Japan have ordered Comets. P. A. A. has ordered a long-range version, series 3. SPAN: 115'0" LENGTH: 93'0" ENGINE: (1) 4/D. H. Ghost/5,000-lb. thrust each; (2) 4/R. R. Avon/6,500-lb. thrust each. MAX. SPEED: 450 knots. RANGE: 2,400 nautical miles/425 knots. ARMAMENT: None.
G. B.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DE HAVILLAND
G. B.
SUPPLEMENT NO. 4 JUNE 1953
Security Information
COMET
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
VICKERS ARMSTRONGS
VISCOUNT
The Viscount is the first turboprop transport to be flown by a scheduled airline. This four-engined transport is a development of the Viking with similar wing and fuselage construction. A number of versions have been built and others are planned. The type 700, illustrated on these pages, is a develop ment of the type 630 with a lengthened fuselage and increased wing span. It will accommodate 40 to 48 passengers. A slightly modified version, the 701, is in production for the British European Airways. The following, differing in cabin layout, are being produced; Britain 702, Ireland 707, France 708, Australia 720, Canada 724. An elongated version, the type 800, is scheduled for B. E. A. in the future. In the B. E. A. the Viscount is called the Discovery class. Its weight is 52,500 pounds. LENGTH: 81'2" SPAN: 94'0" ENGINE: 4/R. R. Dart 504, turboprop/1,400 s. h. p. plus 365-lb. thrust each. MAX. SPEED: 290 knots/25,000 ft. RANGE: 1,300 nautical miles/260 knots. ARMAMENT: None.
G. B.
SUPPLEMENT NO. 4 JUNE 1953
25fl!)44°—53———6
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
VICKERS ARMSTRONGS
G. B. SUPPLEMENT NO. 4 JUNE 1953
Security Information
VISCOUNT
FM 30-30
Securit
ration
OPNAV 32P-1200/4 AFM 50-40D
HANDLEY PAGE
Security Information
MARATHON
The Marathon is a four-engined high-wing mono plane intended for use as an advanced navigation trainer with the K. A. F. or feeder line transport with airlines. This all-metal aircraft features triple fins with the outside fins and rudders serving as end plates to the horizontal stabilizer. Earlier models had twin-fins. The fuselage is wide and spacious and presents a squarish appearance in cross-section. A retractable tricycle landing gear is employed consist ing of dual main wheels. It has a crew of two and can carry 22 passengers as a transport at a take-off weight of 18,000 pounds. A Marathon Mk. 1 made an extensive tour in 1950 flying 40,000 miles between the U. K. and Australia. A prototype Marathon fitted with two turboprop engines has been developed. LENGTH: 52'1" SPAN: 65'0" ENGINE: 4/D. H. Gipsy Queen 70, in-line/345 h. p. each. MAX. SPEED: 200 knots/6,700 ft. RANGE: 1,200 nautical miles/140 knots. ARMAMENT: None.
G. B.
SUPPLEMENT NO. JUNE 1953
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
MARATHON
HANDLEY PAGE
G. B. SUPPLEMENT NO. 4 JUNE 1953
Security Information
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
BRISTOL
Security Information
FREIGHTER
The Bristol Freighter is a high-wing twin-engined cargo passenger aircraft. It is available in many variants ranging between a cargo version with a capacity of 12,000 pounds and a passenger version with accommodations for 36 passengers. The mili tary version can be used as a navigational trainer with equipment for fourteen students and their in structors. This version is in service with British cargo lines, the K. A. F., R. A. A. F., R. C. A. P., R. N. Z. A. F., and the Pakistan Air Force. The Freighter has a bulldog aspect which gives it a distinc tive appearance. Differences in versions are appar ent; most noticeable are the addition of a dorsal fin to the military version and the squared-off wing tips of earlier version. The aircraft weighs 42,000 pounds fully loaded. LENGTH: 68'4" SPAN: 108'0" ENGINE: 2/Bristol Hercules 672/1,700 h. p. each. MAX. SPEED: 200 knots/3,000 ft. RANGE: 1,235 nautical miles/140 knots. ARMAMENT: None.
G. B.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30
Security Information
OPNAV 32P-1200/4 AFM 50-40D
BRISTOL
G.B. SUPPLEMENT NO. 4 JUNE 1953
FREIGHTER
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
AIRSPEED
AMBASSADOR
The Ambassador is a twin-engined high-wing monoplane designed as a replacement for the C-47/R4D type transport. A military transport version, the Ayreshire, is designed with a special loading ramp in the rear fuselage. The aircraft is extremely pleasing to the eye with an empen nage which is reminiscent of the Constellation's triple fins and rudders. Prototypes of the Am bassador have been flying since 1947. The first pre-production aircraft to B. E. A. flew in 1950. This aircraft has been used for service trials on European routes. Its pressurized all-metal fuse lage will accommodate as many as 49 passengers. The landing gear is a retractable tricycle type with each main unit consisting of twin wheels. Weight loaded is 52,000 pounds. LENGTH: 81'4". SPAN: 115'0". ENGINE: 2/Bristol Centaurus 661/2,700 h. p. MAX. SPEED: 300 knots/20,000 ft. RANGE: 1,700 nautical miles/190 knots. ARMAMENT: None.
G.B. SUPPLEMENT NO. 2 JUNE 1951 B5S047 O—51——7
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
AIRSPEED
G.B. SUPPLEMENT NO. 2 JUNE 1951
AMBASSADOR
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
VALETTA
VICKERS-ARMSTRONGS
The Valetta is to be the RAF's standard medium range transport. It is a twin-engine, low-mid-wing monoplane fitted with a single fin and rudder and retractable coventional landing gear. The wings taper on leading and trailing edges to rounded tips. It has a rather thick cigar-shaped fuselage and differs from the Viking in minor respects only. The main differences are an enlarged main door, reinforced floor, and increased size of the crew compartment to accommodate a navigator as the fourth crew member. It may carry a freight load of 8,000 pounds or 36 troops. SPAN:
62'10".
ENGINE:
Hercules 230; radial/2,000 h. p.
SPEED:
280 knots/8,000 ft.
RANGE:
1,380 nautical miles/150 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
89'3".
None.
AFM 50-40 OPNAV 32P-1200
VICKERS-ARMSTRONGS
G.B. MAY 1949
VALETTA
AFM 50-40 OPNAV 32P-1200
VMS-ARMSTRONGS
VARSITY AIRCREW TRAINER
The Varsity T. Mk. 1, a development of the Viking Valetta, is a general purpose aircrew trainer. Al though retaining the same general characteristic as the Valetta, the Varsity has a tricycle steerable nosewheel landing gear, necessitating a slightly longer forward fuselage section. AH three units of the landing gear have twin wheels. The wing of the Varsity is slightly larger than the Valetta's. An unusual feature of the Varsity is an underslung homb hay, in the form of a pannier fitting against the underside of the fuselage, A bomb-aimer's window is situated in the foreward end. This pannier appears to be detachable suggesting that it could be removed when the aircraft is not being used as a bomb-aimer trainer. SPAN: 94'11". LENGTH: 67'6". ENGINE: 2 Bristol Hercules Radial/2,000 h. p. each. SPEED: 280 knots/8,000 ft. RANGE: 1,380 nautical miles/150 knots. ARMAMENT: Bomb bay.
6.8. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
VICKERS-ARMSTRONGS
G.B. JUNE t950
VARSITY AIRCREW TRAINER
FM 30-30 OPNAV 32P-1200 AFM 50-40A
DE HAVILLAND
D. H. 104 DOVE
The Dove, D.H. 104, is a twin-engine, low-wing transport. In-line engines are fitted with the na celles extending well beyond the leading edge of the wing. The wings taper on leading and trail ing edge to very short chord well rounded tips. A single tail is fitted with a large dorsal fin. It has a retractable tricycle landing gear. A cargo of 1,975 pounds or 1.1 passengers can be carried. A mili tary version of the Dove is the Devon which is used for communications duties within the RAF and for the use of British Air Attache's abroad. SPAN:
39'4".
ENGINE:
Gipsy Queen 71; in-line/330 h. p.
SPEED:
193 knots/5,800 ft.
RANGE:
1,300 nautical miles/139 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
57'0".
None.
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
G.B. MAY 1949
D. H. 104 DOVE
AFM 50-40 OPNAV 32P-1200
BOULTON PAUL
6ALLIOL T. MK. 2
The Balliol is a low-wing all-purpose two/three seat advanced trainer. The first flight was made by the Mk. 1 turboprop powered version on 24 March 1948. Another version the Mk. 2 is powered by a recipro cating engine. Except for the differences in the engine installations, the two marks are the same in all essentials. The seating arrangement is side-byside for instructor and pupil with full dual control. A third seat is in the rear of the cockpit for observer or navigator. The wings have dihedral in the outer panels and are tapered on the leading edge and trailing edge to blunt tips. A tall fin and rudder with a dorsal fairing is located half on and forward of the stabilizer. The after end of the fuselage tapers to a sharp point. SPAN: 39'4". LENGTH: 35'2", ENGINE: Merlin 35; Vee in-line/1,245 h. p. SPEED: 265 knots/11,500 ft. RANGE: 460 nautical miles/215 knots. ARMAMENT: None.
G.B. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
evj
DE HAVILLAND
DHC-1 CHIPMUNK
The Chipmunk DHC-1 is a low-wing, two-seat trainer. Designed and built by the Canadian sub sidiary branch of de Havilland, the Chipmunk is also in production in England where it has been adopted as the standard trainer for the RAF Volunteer Reserve. This all-metal light trainer has a largo tapering wing with raked wing tips. The graceful fin and rudder are typical de Havilland with the fin set just forward of the tapered stabilizer. Cockpit arrangement is in tandem with a removable canopy, portions of which slide for access; dual controls are provided. A fixed two-wheel type landing gear is fitted. The Chipmunk at this writing was in use by six air forces of the world. LENGTH: 25'5". SPAN: 34'4". ENGINE: D. H. Gipsy Major; in-line/145 h. p. 122 knots/sea level. SPEED: 400 nautical miles/110 knots. RANGE: ARMAMENT: None.
G.B. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
O O
K)
3-0
ui
ZP
A. V. ROE
ATHENA T. MK. 2
The Athena is a low-wing trainer for advanced flying training, day and night navigation, gunnery, bombing and photography. It is also equipped to serve as a glider-tug. The student pilot and the instructor are seated side by side beneath a sliding canopy. To meet modern requirements, the original specification T. Mk. 1 called for the installation of a turboprop engine, but owing to the lack of a quantity of these engines, modifications were made and reciprocating engines were installed. This version was designated Athena T. Mk. 2. The wing of the Mk. 2 is set forward to maintain balance. In the Mk. 1, the jet exhaust pipe passes through the fuselage and ter minates on the starboard side of the fuselage midway between the wing and tail unit. SPAN: 40'0". LENGTH: 36'6". ENGINE: Merlin 35; Vee in line/1,245 h. p. SPEED: 265 knots/11,500 ft. RANGE: 460 nautical miles/183 knots. ARMAMENT: None.
G.B. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
•o ui o
8
PERCIVAL
The Provost, first known as the P.56, is a side-byside trainer designed for the RAF. It is fully aero botic, has a maximum endurance of almost five hours and has been designed with special regard to easy maintenance and servicing. The Provost has a fixed landing gear and pneumatically operated flaps are fitted. It has amber screens for blind flying, full blind flying panel and 12 channel V. H. F. Handling reports describe the aircraft as pleasant and easy to fly. A feature of the Provost is its control response. Its rate of roll and handling qualities are reminis cent of a fighter. At 220 knots, it completed a full roll to the left in 3.4 seconds. The Provost's take-off weight is 4,250 pounds. This aircraft is in full pro duction. LENGTH:29'0" SPAN: 35'2" 0 h. p. radial/50 25, Mk. Leonides ENGINE: Alvis ft. 00 knots-2,5 174 MAX. SPEED: RANGE: 550 nautical miles/162 knots. ARMAMENT: None.
G. B. SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
PERCIVAL
G. B. SUPPLEMENT NO. 4 JUNE 1953
PROVOST
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
AUSTER
AUSTER A. 0. P.
The Auster is a light air observation high-wing mono plane used by the E. A. F. and the British Army. It has appeared in a number of modified versions, and was originally developed from the American Taylorcraft. The Auster firm is a successor to Taylorcraft Aeroplanes, Ltd., which was formed to manufacture the Taylorcraft under license. Welded steel-tube construction with wooden stringers and fabric cover ing is employed. The strut-braced wing is rectang ular in shape with rounded tips and trailing-edge flaps. Rounded tail surfaces are strut-braced. Aus ter A. O. P. (air observation post) Mk. 6's have been fitted with skis and floats for use in the Antarctic. The take-off weight of the Auster is 1,850 pounds. LENGTH: 23' 9" SPAN: 36' 0" ENGINE: (Mk. 6) D. H. Gipsy Major 7/145 h.p. MAX. SPEED: 110 knots/1,000 ft. RANGE: 280 nautical miles/85 knots. ARMAMENT: None.
G.B. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
AUSTER
G.B. SUPPLEMENT NO. 3 IUNE 1952
AUSTER A. 0. P.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
ROYAL NAVY AIRCRAFT
BRIGAND 1
BRISTOL AEROPLANE
The Brigand 1 is a three-place, twin-engine, midwing monoplane. Radial engines are fitted, with the nacelles underslung. The wing tapers on both leading and trailing edges to well rounded tips. The nose extends just beyond the engine nacelles. Twin elliptical vertical tails are fitted. A conven tional retractable landing gear is employed. A maximum bomb load of 2,450 pounds may be car ried. The Brigand was designed as a long range attack aircraft capable of fulfilling the duties of a dive bomber, torpedo fighter, mine carrier or day or night fighter. SPAN:
72'4".
ENGINE:
Centaurus 57; radial/2,400 h. p.
SPEED:
318 knots/12,500 ft.
RANGE:
1,910 nautical miles/169 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
46'5".
4 x 20 mm.; 1 x .50 cal.
AFM 50-40 OPNAV 32P-1200
BRISTOL AEROPLANE
G.B. MAY 1949
BRIGAND 1
AFM 50-40 OPNAV32P-1200
BLACKBURN AIRCRAFT
FIREBRAND 5
The Firebrand 5 is a single-engine, single-place, low-wing fighter, torpedo carrier. A radial engine is fitted. The wing has dihedral in the outer panels, and tapers on leading and trailing edges to well rounded tips. A single tail is fitted, with the tip of the vertical fin square. The landing 1 gear is of the conventional retractable type. The wings fold for carrier operation. A 2,000 pound torpedo or bomb may be carried externally be neath the fuselage. It may also carry two 45 im perial (206 litre) wing drop tanks or one larger tank on the torpedo gear. The prototype of the Firebrand 1 first flew on 27 February 1942. SPAN:
51'3'/2 ".
ENGINE: SPEED: RANGE:
39'1".
Centaurus 9; radial/2,590 h. p. 296 knots/13,000 ft. 380 nautical miles/250 knots.
ARMAMENT:
G.B. MAY 1949
LENGTH:
4 x 20 mm. fixed in wings.
AFM 50-40 OPNAV 32P-1200
BLACKBURN AIRCRAFT
G.B. MAY 1949
FIREBRAND 5
AFM 50-40 OPNAV 32P-1200
FAIREY AVIATION
FIREFLY 4
The Firefly 4 is a single-engine, two-place, lowwing monoplane with an in-line engine. The wings taper slightly on leading and trailing edge to square tips. A single tail and retractable conven tional landing gear are fitted. The Firefly 4 is similar to the Firefly 1 except that the wings are clipped, the center section of the wing's leading edge is revised to take cooling radiators, and the leading edge of the fin is extended. A maximum bomb load of 2,000 pounds may be carried. The Firefly 4 was designed to fulfill day and night fighter duties. The night fighter version has radar gear set in each wing. LENGTH: 37'11". SPAN: 41'2". ENGINE: Griffon 74; Vee in-line/2,020 h. p. 335 knots/14,000 ft. SPEED: 642 nautical miles/220 knots. RANGE: ARMAMENT: 4 x 20 mm.; 8 x 3" rkts. or bomb load.
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
FAIREY AVIATION
G.B. MAY 1949
FIREFLY 4
AFM 50-40 OPNAV 32P-1200
FAIREY
GANNET
The Gannet is a three-seat mid-wing antisubmarine aircraft with an inverted gull-wing. It has cata pulting attachments, an arrester hook, and powered folding wings. Each wing is doubly hinged to per mit more efficient storage in the low overhead British hangar deck. The Gannet is the first R. N. plane to be fitted with tricycle gear. It features twinturboprop engines coupled to co-axial four-bladed propellers. For long-range cruising one of the two units can be shut down. Other features include a short sloping nose for search visibility, a retractable ventral radome, and a long bomb-bay for carrying buoys, depth charges or torpedo. The Gannet was the first turboprop airplane to make a carrier landing. LENGTH: 43' 0" SPAN: 54' 4" ENGINE: 2/Armstrong-Siddeley Double Mamba turboprop/2,540 s.h.p. plus 770-lb. thrust. MAX. SPEED: 400 knots plus. RANGE: ARMAMENT:
G.B. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
FAIREY
G.B. SUPPLEMENT NO. 3 JUNE 1952
GANNET
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
SHORT
SEAMEW
The Seamew is a two-place turboprop anti-submarine mid-wing monoplane designed for use aboard British escort aircraft carriers. This aircraft was specifically developed for easy and cheap production and is intended primarily for convoy protection. The Seamew is very light and has a low landing speed. Factors contributing to its fine field of view are the small dimensions of the engine, the high positioning above the engine of the pilot's cockpit, and the shape of the windshield. A simple fixed tail wheel type landing gear is fitted. The long narrow fuselage has a bomb bay door for the release of a torpedo or other armament. A tail hook is fitted. The object appearing on the tail hook of the prototype Seamew shown in the top photograph is an anti-spin para chute for testing purposes. A detachable radome bolts onto the underside of the nose. SPAN: 55'0" LENGTH: 41'0" ENGINE: Armstrong Siddeley Mamba turbo prop/1,640 s. h. p. MAX. SPEED: RANGE: 500 nautical miles/120 knots. ARMAMENT: Rockets, torpedos and sonobuoys.
G. B.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SHORT
G. B.
SUPPLEMENT NO. 5 JUNE 1954
SEAMEW
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
HAWKER AIRCRAFT
SEA FURY
The Sea Fury single seat naval fighter is in opera tional service in the Royal Navy, the Royal Cana dian Navy, the Royal Australian Navy and the Royal Netherlands Navy. It is the last pistonengined fighter to be built in quantity in Great Britain. The Sea Fury has also been built by Fokker of Holland. Designated Sea Fury F. B. Mk. 51, it is similar to the F. B. Mk. 11 but has Dutch language instruments. The Sea Fury F. Mk. 10 was the first British production version which was followed by a slightly modified F. B. Mk. 11. This newer version has seen service in Korea where it shot down a MIG-15. A trainer version, the T. Mk. 20 is a two-seater with an elongated bubble canopy. The wings of the Sea Fury fold up similar to the Corsair's. Its weight is approximately 12,500 pounds. LENGTH: 34'8" SPAN: 38'5" h. p. radial/2,470 Centaurus, Bristol ENGINE: MAX. SPEED: 390 knots/20,000 ft. RANGE: 915 nautical miles/245 knots. ARMAMENT: 4 x 20 mm; 12 x 3" rockets; 2 x 500Ib. bombs.
G. B.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
HAWKER AIRCRAFT
G. B. SUPPLEMENT NO. 4 JUNE 1953
SEA FURY
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
DE HAVILLAND
SEA HORNET 20
The Sea Hornet 20 is a single-seat, twin-engine, carrier based monoplane fighter. The wing is fitted to the fuselage well forward, and the engine na celles extend forward of the fuselage. A retract able conventional type landing gear is fitted. There is a single tail. This aircraft is similar in appearance to the Hornet 3. A maximum bomb load of 2,000 pounds may be carried. There is also a night fighter version, N.F.21, with a prom inent radar dome in the nose. The prototype Hornet fitted with arrester hook and nonfolding wings, made its first deck landing trials on the H.M.S. Ocean during August 1945. SPAN: 45'0". LENGTH: 36'9". ENGINE: Merlin 130,131; Vee in-line/1,670 h. p. SPEED: 400 knots/17,000 ft. RANGE: 700 nautical miles/231 knots. ARMAMENT: 4 x 20 mm.; 8 x 3" rkts. or bomb load.
G.B. MAY 1949
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
G.B. MAY 1949
SEA HORNET 20
AFM 50-40 OPNAV 32P-1200
DE HAVILLAND
SEA VAMPIRE
The Sea Vampire is a naval version of the stand ard R. A. F. Vampire. De Havilland's family of Vampire variants is steadily growing, but at pres ent only the Mks. 1, 3, and 5 are in squadron serv ice with the R. A. F. and the Mk. 20 with the Navy. Recognition differences are the shape of the fins and rudders, and the shape of the wing tips. The former are squarish on the Mk. 1 and curved on the Mks. 3 and 5, while the latter are rounded on the Mks. 1 and 3, and clipped square on the Mk. 5. The Sea Vampire Mk. 20 is similar in appearance to the Mk. 5, but carries a pointed fairing above the jet-pipe, housing a V-type deck hook. Drop tanks may be carried under the wings as shown in the silhouette. Its fully loaded weight is more than 12,000 pounds. SPAN: 38'04". LENGTH: SOW. ENGINE: D. H. Goblin 2/3,100-lb. thrust. MAX. SPEED: 470 knots/20,000 ft. RANGE: 540 nautical miles/305 knots. ARMAMENT: 4 x 20 mm.
G.B. SUPPLEMENT NO. JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
DE HAVILLAND
G.B. SUPPLEMENT NO. 2 JUNE 1951
SEA VAMPIRE
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
DE HAVILLAND
SEA VENOM
The Sea Venom N. F. Mk. 20 is an all-weather jet fighter fully equipped for operation from carriers. It is a naval version of the R. A. F. Venom N. F. Mk. 2. The Sea Venom is to go into operation with Royal Australian Navy and the French Navy. The Sea Venom embodies deck arrester gear and hydraulically folding wings and differs in these re spects from the Venom N. F. Mk. 2. A crew of two, pilot and radar-operator, are seated side-byside. The tail assembly of the Venom is similar to Vampire components. The wing, however, is new, and is a square-tipped unit of very thin section. Jettisonable tanks can be attached to the wing tips. When loaded it weighs around 12,000 pounds. SPAN: 41' 9" LENGTH: 34' 7" ENGINE: D. H. Ghost/5,000-lb. thrust. MAX. SPEED: 550 knots/30,000 ft. RANGE: ARMAMENT: 4 x 20 mm.
G.B. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
DE HAVILLAND
G.B. SUPPLEMENT NO. 3 JUNE 1952
SEA VENOM
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
VICKERS-ARMSTRONGS
ATTACKER
The Attacker is a straight-wing jet carrier fighter fitted with folding wings and arrester gear. It is the predecessor of the swept-wing Swift. The Attacker was originally designed to an R. A. F. specification but never produced. However, it was later produced in its original form for the Royal Pakistan Air Force and in a navalized form for the Royal Navy. The Attacker seats its pilot well forward in a cigar-shaped fuselage, and is provided with an ejector seat. It has a tail-wheel landing gear Avhile the Swift has a tricycle gear. Side air intakes are a distinctive feature of the Attacker and later Supermarine jets. Take-off weight of the attacker is around 12,000 pounds. LENGTH: 37' 6" SPAN: 36' 11" ENGINE: R. R. Nene turbojet/5,000-lb. thrust. MAX. SPEED: 515 knots/sea level. RANGE: 590 nautical miles/380 knots. ARMAMENT: 4 x 20 mm; 4 x 300-lb. rockets.
G.B. SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
VICKERS-ARMSTRONGS
G.B. SUPPLEMENT NO. 3 JUNE 1952
ATTACKER
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
HAWKER
SEA HAWK
The Sea Hawk is a jet-propelled, single-seat fighter developed primarily for carrier-borne operations. A first flight was made by the second prototype, which was a navalized version with folding wings, in the fall of 1948. The Sea Hawk is an exception ally clean mid-wing monoplane with a tricycle landing gear, a single fin and rudder and a high mounted stabilizer. Air intakes for the single jet engine, installed amidships, are in the wing's leading edge roots, and the jet exhaust exits on the wing's trailing edge on each side of the fuselage. The Sea Hawk is the first design to use such a twin jet exhaust system with a single engine. This method provides more room for fuel tanks, thus increasing range. The P. 1052 is a sweptwing version. LENGTH: 38'4". SPAN: 36'6". ENGINE: Nene/5,000-lb. thrust. More than 540 knots. SPEED: RANGE: ARMAMENT: 4 x 20 mm. mounted in nose.
G.B. JUNE 1950
FM 30-30 OPNAV 32P-1200 AFM 50-40A
VOfr-OS WdV AVNdO
OS6I.
oe-oe VNJ
MVH V3S
H3MVH
WYVERN
WESTLAND
The Wyvern was designed as a carrier-borne singleseat strike fighter for the Royal Navy. There are currently four versions: The reciprocating engine Mk. 1, the turboprop powered T. F. Mk. 2, the turboprop trainer T. Mk. 3, and the production torpedo fighter T. F. Mk. 4. The Mk. 4 differs from the prototype Mk. 2 in having a dorsal fin, small fins outboard on the stabilizer, dihedral stabilizer and a shorter front fuselage outer cowling. Other differences are the higher fin and the turbo exhaust ports of the Mk. 2 and 4. The Mk. 3 differs from the other three in that it has a longer cockpit canopy to house the second pilot. All major units of Mk. 2, 3, and 4 are interchangeable, and flying characteristics of the three versions are identical. LENGTH: 42'3" SPAN: 44'0" ENGINE: Python turboprop/3,670 s. h. p. plus 1,150-lb. jet thrust. MAX. SPEED: 400 knots plus. RANGE: ARMAMENT: 4 x 20 mm; 1 x 20" torpedo; 16 x 90Ib. rockets.
.<**v.
G. B.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
WESTLAND
G. B.
SUPPLEMENT NO. 5 JUNE 1954
WYVERN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PERCIVAL
SEA PRINCE
The Sea Prince is a light twin-engined high-wing transport. This aircraft is being used by the Royal Navy for crew training and communications. A version of the Sea Prince is flying for Shell Oil Co. doing aerial survey duties. It is equipped with an extended nose for a navigator/observer station. A quantity of these are being produced for wide commercial use throughout the world. The stand ard cabin arrangement provides for the seating of eight passengers plus a crew of two. Nacelles are underslung on a flat narrow wing. The taper of the trailing edge of the wing is more pronounced than the leading edge. A large rounded fin and rudder is fitted.with a dorsal fairing extended for ward. The tricycle landing gear is a retractable type. Weight loaded is around 11,000 pounds. SPAN: 56'0". LENGTH: 42'10". ENGINE: 2/Alvis Leonides 501/4, radial/520 h. p. MAX. SPEED: 195 knots/5,000 ft. RANGE: 570 nautical miles/156 knots. ARMAMENT: None.
G.B. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-1200/2 AFM 50-40B
PERCIVAL
G.B. SUPPLEMENT NO. 2 JUNE 1951
SEA PRINCE
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
VICKERS-ARMSTRONGS
SEA OTTER
The Sea Otter, which was produced before the war, was designed to replace the Walrus on reconnaissance and general naval duties, including Air/Sea. Rescue. It is an amphibian with a retractable landing-gear and folding wings. Catapulting gear is included. The stabilizer is mounted halfway up the fin and the tail surfaces are plywood and fabric covered. Its hull is all-metal. A crew of three or four may be carried with the pilot's enclosed cockpit forward of the wings and an open cockpit amidship. The radio and navigation compartment is aft of the pilot's cockpit. Still operational with the Royal Navy and the French, the Sea Otter has seen considerable service in Korea and Indo-China. There is a civilian counterpart which accommodates four passengers. SPAN: 46'0" LENGTH: 39'9" ENGINE: Bristol Mercury 30, radial/855 h. p. MAX. SPEED: 130 knots/5,000 ft. RANGE: 630 nautical miles/85 knots. ARMAMENT: 2 x 7.9 mm; bombs or depth charges.
G. B.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
VICKERS-ARMSTRONGS
G. B. SUPPLEMENT NO. 4 JUNE 1953
SEA OTTER
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
U. S. S. R. (The Union of Soviet Socialist Republics) The Soviet Air Forces
Clouded by censorship, propaganda, and frequent reorganizations, the Soviet concept of air power has seemed contradictory. The fact remains, however, that the U. S. S. R. is a land power, and it is likely that the primary purpose of their air power will be to back up the Army in a tactical capacity. While it is but a relatively modern air force, it is one which the Soviet leaders constantly are trying to improve. Their air force includes a number of men who have distinguished themselves for daring and imagination in the operation and design of aircraft, whom, it is safe to assume are no less talented than the pilots and engineers of Russian birth who distinguished themselves in this country. Under the reorganization of the Soviet armed forces, announced in February 1950, the air force after 4 years of relative autonomy, apparently has reverted to the position it occupied under the Soviet Army during World War II. This change places the Army and Navy on the same plane, somewhat similar to our defense set-up prior to unification. Within their Ministry of WTar, Soviet military aviation in cludes the Army Air Force (for cooperation with ground troops), Fighter Aviation of the air defense system, and the Long Range Aviation, and Aviation of Airborne Troops. There is also a civil air fleet which provides the air transport requirements of the U. S. S. R. These military components are organized into air armies, each composed usually of three corps, further sub divided into three divisions per corps. Each air division is composed of three air regi ments. The air regiment is the basic tactical unit of all Soviet Air Forces. Within this unit there are three squadrons with approximately 30 to 50 aircraft depending upon the regiment's role. The Soviet Union today is said to have an air force of upwards of 20,000 operational aircraft including jet fighters, light, and medium jet bombers, and Bull (TU-4) medium bombers. Modernization was evi dent at the 1954 May day show when a number of new swept-wing bombers were flown over Moscow. Soviet Naval Aviation
Naval aviation in the Soviet Union has not devel oped along the same lines as in the United States, nor has it received equivalent attention. Emphasis during the "Great Patriotic War" was placed on land power backed up by a strong tactical air force. As a
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954 805799 O—54———6
result, naval air units during World War II were fre quently drawn away from their maritime duties and assigned to the Air Force in operations supporting the Army ground forces. Although its role in World War II was relatively minor, naval aviation has been modernized in con junction with the over-all expansion of Soviet mili tary aviation. In the future, naval aviation may be expected to play an increasingly important role con sistent with the continued development of the Soviet Navy. Naval aviation is an integral element of the Soviet Navy and is therefore administered independently from the other components of military avia,tion. While the significance of the separation of the Soviet Navy from the Ministry of Armed Forces remains obscure, it is considered that this development will result in increased emphasis toward the strengthening of Soviet naval aviation as well as other elements of the Soviet Navy. Overall technical policy, and administrative con trol of naval aviation is vested in the Commander in Chief of Naval Aviation with headquarters in Mos cow. He is subordinate to the Commander in Chief of the Navy, who, in turn, is responsible to the Min istry of the Navy. Operational or combat control over the various fleet air forces is vested in their respective fleet commanders. Principal subdivisions in the organization of naval aviation are: (a) fleet air forces, (6) air divisions, and (c) air regiments. The Soviet Navy is organized into fleets on a geographical basis such as the Pacific, Baltic, Northern, and Black Sea fleets. Fleet air forces are assigned to these areas as a part of these fleets. Naval Aviation maintains its own supply service and ground organization. All personnel, however, have Army rank and grade designations. The organization, composition, and numerical strength of a fleet air force vary in accordance with its assigned task, the scope of its operations, and the forces available. Soviet naval aviation is said to be composed of more than 3,500 aircraft. Since th 1950 reorganization, however, the fact that increase emphasis has been placed on the modernization ^i naval aviation was borne out at the July 1951 Air Day Show when the Soviets displayed some of the Navy's new jet equipment. It is landbased, having no aircraft carriers from which to operate. The Soviets, however, received some ex-German seaplane tenders under treaty agreements.
FM 30-30
OPNAV 32P-1200/5 AFM 50-40E
Soviet Aircraft Designations
Aircraft factories in the Soviet Union and its satellite countries are state controlled and all air craft production is undertaken in state factories. The design of aircraft is carried out in these state factories by a small group of experts who have their own design staffs. It is not unusual for suc cessful designers to be awarded high rank in the Engineering Service of the Soviet Air Forces which accounts for the military rank sometimes added to a designer's name. On the other hand unsuccessful designs have led to prison terms. This is by no means the end, for the Soviets have a practical outlook and have been known to allow the convicted designer to continue his work in prison. Under these conditions some prize-winning designs have been created, thus pro viding liberation for the convicted one. Between the years 1925 and 1940, Soviet air craft were designated according to the duties for which designed. An example is the UT-2, Uchebny Trenirovochny, instructional and training designed in 1939 by Yakovlev, series number 2. Although this method was superseded before the German invasion of the U. S. S. R. it has not entirely gone out of use, notable exceptions being the Soviet Navy's seaplanes and flying boats. The following list shows the old designations by functional letters: Type Symbol Purpose I___________________ Fighter DI_ ________________ Two-seat Fighter BSH________________ Armored Dive Bomber BB.______-_-_-_---_ Short-range Bomber SB_______--__-_---- Medium Bomber DB.________________ Long-range Bomber TB_ _______________ Heavy Bomber MI_________________ Navy Fighter MT_________________ Mining and Torpedo PB.---------------- Dive Bomber R_________----_-__- Reconnaissance PS__________-_-_-_-_ Transport MR________________ Reconnaissance Seaplane MBR___-_-_-_-_-___ Short-range Reconnaissance Seaplane MDR___ __-_-_-_-_-- Long-range Reconnaissance Seaplane KOR ___-_-_-_-_-_-_ Shipborne U.----------------- Elementary Training UT_________________ Advanced Trainer A___________________ Autogiro Examples of the change in designation: BB-22-_______________________ Became Yak-1 PB-100----------------------- Became Pe-2
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
TB-7.________________________ DB-3f_ _______________________ U-2__________________________ BSH__________________________ PS-80—-_---------------_-__._
Became Became Became Became Became
Pe-8 11-4 Po-2 11-2 Li-2
The present system of aircraft designation is apparently directly copied from that which the Germans employed, whereby aircraft were asso ciated with their designers (e. g., "He" for Heinkel), and not directly with their role. Thus, aircraft and engines are designated by the initials or an abbreviation of the designer or the design team names, followed by a hyphen and a number. The numbers are not always in the correct order of sequence. Furthermore, the Soviets apparently have no positive system of differentiating between sub-types and modified types, such as the Yak-15 and the modified version with an added nose wheel. The fact that an aircraft is the most recent design of a Soviet designer does not signify that the next highest number will be assigned; certain earlier numbers of experimental or preliminary designs have been adopted for a later design. An obvious example is the Yak-3, which was developed from the Yak-9, both designed by Alex ander S. Yakovlev. A more recent example is the Tu-4 (USSR B-29; a Tu-4 design, not similar to the present aircraft of that designation, was under way during World War II but was never placed in production. Nevertheless, it has been observed that the Soviets are adhering to a general applica tion of odd and even numbers to specific categories. Odd numbers are generally fighters or fighter trainers (La-7; MIG-9; Yak-15, etc.) while even numbers apply to all other types (Pe-8, bomber; 11-12, transport; etc.). A few Soviet aircraft have, from time to time, been given names, the widely publicized "Stormovik" and "Maxim Gorki" are instances. Others are the helicopter "Omega," and the tail first "Utka" or "Duck." The following list shows the more important designers, abbreviated by name in alphabetical order. B_______________ ANT ___________ BI_ _____________ Er___-__________ Il_______________ Kli_ ____________ La____-___-_-___ LAGG__________
Beriev Andreas Nickolaievitch Tupolev Berendjak and Issariev Ermolaev Ilyushin Klimov Lavochkin Lavochkin, Gorjunov and Gudkov Li ______________ Lisitsin
FM 30-30
OPNAV 32P-t 200/5
AFM 50-40E
ML ____________ Miassishchev MIG_--_-___-_ Mikoyan and Gurevich Mik_ ___________ Mikoyan
Mil__________.__ Mil Pe__________---_ Po___.__________ SHCHE_-______ Shv_____________ Su______________ Tu_____________ Yak-_____-_-.-_
Petlyakov Polikarpov Shchervbakov Shvetsov Sukhoi Tupolev Yakovlev
During World War II a large number (said to be more than 13,000) of American-type aircraft were transferred to the U. S. S. R. under Lend Lease. Their designations, it appears, have been retained— i. e., the P-63 "King Cobra." Foreign aircraft made in Russia under license were, however, given a straight Soviet designation. An example is the "Skytrain" (DC-3/C-47/R4D) which was renamed the Li-2. Training versions of a few of the operational fighters carry the prefix "U"—thus the ULa-7, UYak-3, UMIG-15, UI1-28, etc. Specially designed opera tional trainers are being turned out, such as the Yak-11 fighter/trainer. Soviet Aircraft Designation System
There has been a long standing requirement for a simple system for designating Soviet aircraft. Such a system has been developed and introduced for use by the military services. This new designation system consists of five major categories of Soviet Aircraft with names assigned to each aircraft bearing an initial letter descriptive of its operational role, as follows: "F" for fighters. "B" for bombers. "C" for cargo-transports. "H" for helicopters. "M" for miscellaneous aircraft which will include all types of aircraft other than the first four named.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
Names of one syllable, bearing the appropriate initial letter as indicated in the preceeding paragraph, will be used to designate propeller driven aircraft including those driven by turboprop engines. Names of two syllables, bearing the proper initial letter will be assigned to jet-propelled aircraft. The U. S. S. R. recognition sheets have been brought up to date with this supplement to include the new names assigned in accordance with the fore going designation system. The new designations will not be adopted for Soviet aircraft that are obsolescent or unlikely to appear in front line service. A name assigned to an aircraft in conformance with the system will not be altered in the event additional characteristics or change in operational role of this aircraft later be come known, unless such changes involve distin guishable recognition differences. This system of naming Soviet aircraft will be an improvement from many points of view. One in particular will tend to obviate the variety of Soviet spelling, designations, numbers and designers allotted Soviet aircraft by all and sundry. This condition, of course, tends to bewilder and confuse the issue. A parallel system of Japanese code names existed during World War II. The use of easily remembered names such as those of boys and girls was officially introduced to meet an emergency and it proved the only way in the Pacific to save life and reduce casualties suffered through faulty identification. This code name system proved to be the way to teach the bulk of personnel Jap aircraft, which had highly complicated designations. A "Val" was a name easy to remember, but to try and remember it as the Aichi 99 was a different matter altogether. In introducing names for Soviet aircraft, it is not intended that all the designations and background knowledge on Soviet aircraft should be forgotten. It should act as a spur to find out what is behind the name.
FM 3O-30 OPNAV 32P-1200/5 AFM 50-40E
SOVIET EQUIPMENT Type Heavy Bomber Medium Bomber Light Bomber
Attack
Fighter
Designation Bison Barge Bull (Tu-4) Pe-8 Badger (jet) Buck (Pe-3) Buck (Pe-2) Bat (Tu-2) Bob (11-4) DB-3 SU-2 Butcher (11-28) Bosun (jet) Bark (11-2) Beast (11-10) Box (A-20A) Bank (B-25D) Yak-3, -5 Frank (Yak-9) Yak-15 Feather (Yak17). Flora (Yak-23) La -5 Fin (La-7) Fritz (La-9) Fang (La-11) Fargo (MIG-9)
Manufacturer U. Tupolev Tupolev Petlyakov Petlyakov Petlyakov Tupolev Ilyushin Ilyushin Sukhoi Ilyushin Tupolev Ilyushin Ilyushin Douglas North Ameri can. Yakovlev Yakovlev Yakovlev Yakovlev
Falcon (MIG15).
Yakovlev Lavochkin Lavochkin Lavochkin Lavochkin Mikoyan & Gurevich Mikoyan & Gurevich.
Fantail (jet)
Lavochkin
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
Country s. s. R.
s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. s. s. R. U. s. s. R. U. s. A. U. s. A. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. s. s. R. U. U. U. U. U. U. U. U. U. U. U. U. U.
Type Fighter— Cent. Reconnaissance.
Transport
Trainer
Helicopter
Designation Fresco (jet) Fred (P-63) Mop (GST) (PBY) Mug (MDR-6) Mote (MBR-2) Mole Madge Colt (An-2) Coach (11-12) Crate Clam (11-18) Cab (Li-2) Cart (Tu-70) Crib (Yak-6) Creek (Yak12). Crow (Yak-14) Cork (Yak-16) SHCHE-2 Mule (Po-2) Mink (UT-2) Mark (Yak-7) Moose (Yak11). Max (Yak-18) Magnet (U Yak-1 7). Midget (UMIG-15). Mascot (UI128). Hare Hound
Manufacturer Mikoyan
Country U. s. S. R.
s. A. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. •U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U. s. S. R. U.
U.
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
TUPOLEV
BARGE
The "Barge" is a straight-wing four-engined large bomber. This aircraft was observed in flight at a Soviet air show. In appearance, the Barge's large round fuselage with its up-swept after section re sembles that of the U. S. Constellation. A stubby fin fairing atop the fuselage introduces a prominent rudder and fin. The stabilizer is conventional and is attached to the fuselage. A tail gun turret is located at the base of the fin. The wing is midmounted with four engine nacelles extending well forward from the leading edge of the wing. Super ficially, the Barge might be said to resemble the "Bull" (TU-4), thus linking it to the designer Tupolev. The Barge is not as large as the U. S. B-36, but it is larger than the Bull. SPAN: 180' LENGTH: 130' ENGINE: 4/turboprop or reciprocating. MAX. SPEED: RANGE: ARMAMENT:
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 3SP-1200/5 AFM 50-40E
TUPOLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BARGE
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
BULL (TIM)
The Soviet "Bull" (TU-4) is a four-engine low-wing bomber. A great number of these aircraft have been seen at air shows held around Moscow. The Bull is a copy of the U. S. B-29 Superfortress, several examples of which were confiscated by the Soviets after being forced to land in Soviet occupied terri tory before the end of the war. From the captured B-29's the Soviets have also produced a 72-seat pressurized passenger transport designated the "Cart" (TU-70). The redesign of the B-29 was produced by the versatile Andrei Tupolev, the co-founder of the U. S. S. R. aviation industry. This aircraft will gradually be replaced by more modern long-range turbojet swept-wing bombers. LENGTH: 99'0" SPAN: 141'3" h. ENGINE: 4/Ash-90, radial/2,320 p. each. MAX. SPEED: 320 knots/30,000 ft. RANGE: 3,925 nautical miles/195 knots. ARMAMENT: 11 x 12.7 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BULL (TIM)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PETLYAKOV
PE-8
The PE-8, a redesign of the TB-7 by V. Petlyakov is a four-engine long range heavy bomber. The engines are in-line and project well forward of even tapering wings. The inboard engines have very deep nacelles differing from the small round outboard nacelles, and house a conventional re tracting landing gear. A dorsal gun turret is just aft of a raised greenhouse. The stabilizer is ta pered with round tips, while the single fin and rud der is tall and angular. The PE-8 was Soviet's best known long range bomber in World War II and was used in raids over Berlin. The TB-6B, an earlier version, was used in prewar Polar expedi tions. Later models are fitted with radial engines. LENGTH: 76'5". SPAN: 12910". ENGINE: Ash-82; radial/1,600 h. p. 260 knots/20,000 ft. SPEED: 2,710 nautical miles/180 knots. RANGE: ARMAMENT: 4 x 12.7 mm.; 2 x 20 mm.; 2 x 7.62 mm.
T
USSR MAY 1949
AFM 50-40 OPNAV 32P-1200
PETLYAKOV
USSR MAY 1949
PE-8
AFM 50-40 OPNAV32P-1200
BADGER
The Badger swept-wing twin-jet bomber was ob served at the Soviet 1954 May Day Show. Nine of these new bombers were seen flying in a formation led by a single large four-jet swept-wing bomber (Bison). Following closely behind the Badgers were formations of Fresco swept-wing jet fighters. The twin-jet bombers appeared very graceful in flight. Two large flush air intakes are on the sides of the Badger's fuselage while the exhaust is out the trailing edge of the wing near the wing roots. The sweptwing is mid-mounted. In some views the Badger's tail resembles the "Butcher's" (IL-28); however, it is larger since the Badger is a bigger aircraft. The Badger has been described as being similar to the U. S. B-47. There are differences, though, in that the B-47 has four jets in pods and a thin shouldermounted swept-wing. SPAN: LENGTH: ENGINE: 2/turbojets MAX. SPEED: RANGE: ARMAMENT:
-"IT8*-
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BADGER
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PETLYAKOV
BUCK (PE-2)
The "Buck" (Pe-2) is a twin-engine low-wing bomber and attack monoplane. The wing center section is almost rectangular and the outer sections taper to rounded tips. The fuselage is slim and the lower section of the nose has transparent panelling. A transparent cockpit inclosure is placed forward of the wing's leading edge. The stabilizer has pro nounced dihedral and there are twin oval fins. The engine nacelles extend aft of the wing's trailing edge. The landing gear retracts into nacelles, and a tailwheel also retracts. Maximum bomb load is 2,200 pounds. There is a long-range reconnaissance-fighter version, the "Buck" (Pe-3) with a solid nose and a crew reduced from three to two. LENGTH: 41'5" SPAN: 56'1" ENGINE: 2/M-105R, in-line/1,085 h. p. each. MAX. SPEED: 290 knots/16,400 ft. RANGE: 540 nautical miles/185 knots. ARMAMENT: 2 x 7.6 mm; 3 x 12.7 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PETLYAKOV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BUCK (PE-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PETLYAKOV
BUCK (PE-3)
The "Buck" (Pe-3) is a long-range reconnaissance, fighter version of the "Buck" (Pe-2), with the crew reduced from three to two. It is a twin-engine, lowwing monoplane. The wing has a parallel center section and sharply tapered outer section, with elliptical tips. The fuselage is slim, and a prominent cockpit is placed forward of the wing's leading edge. The stabilizer has pronounced dihedral and there are twin oval fins and rudders. The landing gear re tracts into the nacelles; the tailwheel also retracts. A bomb load up to 2,200 pounds may be carried and in each nacelle there is an incendiary bomb carrier. LENGTH: 41'5" SPAN: 56'1" ENGINE: 2/M-105R, in-line/1,085 h. p. each. MAX. SPEED: 290 knots/16,400 ft. RANGE: 750 nautical miles/175 knots. ARMAMENT: 3 x 12.7 mm; 1 x 7.6 mm.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
PETLYAKOV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BUCK (PE-3)
FM 30-30 OPNAV 32P-1SOO/5 AFM 50-40E
TUPOLEV
BAT (Ttl-2)
The "Bat" (Tu-2)is a twin-engine high shoulder-wing bomber and attack monoplane. The engines are hung low in the wings in long slender nacelles. The air scoop is prominent on top of the engines. A large propeller spinner is fitted. The fuselage has a deep oval-shape and appears very slender with a sharply pointed nose. There is pronounced dihedral in the stabilizer and the twin fins and rudders are eggshaped. A gunner's position is located on the dorsal side of the fuselage behind the wing and on the ventral side forward of the stabilizer. Normal bomb load is approximately 3,080 pounds. LENGTH: 45'3" SPAN: SI'10" ENGINE: 2/M-82 PNW, radial/1,825 h. p. each. MAX. SPEED: 314 knots/19,000 ft. RANGE: 1,250 nautical miles/200 knots. ARMAMENT: 2 x 20 mm; 3 x 12.7 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BAT (TU-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
BOB (IL-4)
The "Bob" (11-4), an improved version of the DB-3F, is a twin-engine low-wing long-range bomber and torpedo-carrier. The engines are radial, fairing into a tapering wing with rounded tips. The large wing root fillets are characteristic of many Russian- types. There is a transparent nose forward of the raised cockpit canopy. A round turret is centered between the cockpit and a forward tapermg fin. The tailplane is tapered with rounded tips. Of interest is Ilyushin's TSKB-26, a twm-engined lowwing transport modeled after the DC-2, which flew from Moscow to Miscow Island, New Brunswick, in April 1939. This aircraft eventually evolved into the IL-4. SPAN: 70'2" LENGTH: 47'7" ENGINE: 2/M-82, radial/1,600 h. p. each. MAX. SPEED: 200 knots/22,960 ft. RANGE: 600 nautical miles. ARMAMENT: 2 x 7.6 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954 305799 O—54———7
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BOB (IL-4)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
BUTCHER (IL-28)
The "Butcher" (11-28) light jet bomber has been seen in Soviet Air shows and in Korea. Designed by Ilyushin, this twin-jet aircraft appears to have been developed for light bombing. Its fuselage is rounded and it has an overall appearance of angularity. The wings have square tips and join the fuselage sharply without fairing. Straight lines are noticeable throughout the bomber; even the long tapered engine nacelles have flat sides and a square look. Pro nounced sweepback is a feature of the empennage. The high mid-wing, like the stabilizer, appears to have moderate dihedral. This all-metal jet bomber is the Soviet's counterpart of the English Canberra (U. S. B-57). The "Mascot" (UI1-28) is a training version with a solid nose and an extra cockpit. SPAN: 70'6" LENGTH: 59'0" ENGINE: 2/VK-l, turbojet/6,000-lb. thrust each. MAX. SPEED: 450 knots plus. RANGE: More than 1,200 nautical miles. ARMAMENT: 2 x 23 mm, nose; 2 x 23 mm, tail.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BUTCHER (IL-28)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
BOSUN
The Tupolev "Bosun" is a twin-jet light bomber somewhat larger than the "Butcher" (11-28). Tupolev's new jet was first observed in quantity during the 1951 Moscow Ah- Show. At that time the aircraft were painted grey, denoting Navy affiliation. The long slender lines of the Bosun give this aircraft a more sleek appearance than the now familiar twin-jet Butcher. In common with the latter, however, the Bosun combines a straight-wing with a sweptback horizontal stabilizer. The shoulder-mounted wing is tapered along both edges outboard of the engines. Finally the tail section particularly appears to be greater in depth than width but still holding to the general "slenderized" impression. Apparently the Bosun's only armament is a tail turret. SPAN: 83'0" LENGTH: 80'0" ENGINE: 2/VK-l/6,000-lb. thrust each. MAX. SPEED: 460 knots plus. RANGE: More than 1,400 nautical miles. ARMAMENT: 2 x 23 mm in tail.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BOSUN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
USSR
The Bison is a four-jet, swept mid-wing, Soviet heavy bomber. The slim, pencil-shaped fuselage with its forward underslung radome, side-sighting blisters, forward turrets, and tail turret is a recognition feature. The cockpit is topped by a transport type canopy. The severely-swept slender wings contain four buried engines in long, flattened cylinders located within the inboard wing sections. Small wing-tip pods cap the ends of the wing. SPAN: 170' LENGTH: 140' MAXIMUM SPEED: Over 500 knots ENGINES: 4/Turbojets/15,000 Ib. Thrust.each RANGE: More than 4350 nautical miles SERVICE CEILING: Above 40,000 ft.
U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
BISON
FOUR-JET HEAVY BOMBER
PM 30-30 OPNAV 32P-I200/6 ARM 60-WG
BISON
ACCENTED
DRAWING
Miscellaneous views of the BISON
Identify the aircraft shown above; correct answers are below
NOSI9 '8
Nbsia '2 U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
13WOD '9
zs-a 's
> 13WOD '£
Nosia ;i
-. •
FM 30-30 OPNAV 32P-I200/6 , ARM 50-40G
BEAR
USSR
The Bear is a moderately swept, shoulderwing, Soviet heavy bomber powered with four turboprop engines. Its recognition features include conventional shaped tail surfaces and swept wings.'The long bullet-shaped engines extend far ahead of the wing leading edge and are mounted on the underside of the wing. The engines appear to turn contra-rotating propellers. Sticking out aft of the wings, behind the inboard engines, are two faired structures that resemble squared pods. These trailing pods serve as housing for the main landing gear. The fuselage is long and slim with a transport type cockpit. External fuselage pro trusions include a forward underslung radome, one lower aft turret, sighting blisters below the horizontal tail, and a tail turret with associated greenhouse.
U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
SOVIET TURBOPROP HEAVY BOMBER SPAN: 146' LENGTH: 135' MAXIMUM SPEED: Over 400 knots ENGINES: 4/Turboprop RANGE : Over 5000 nautical miles SERVICE CEILING: Above 35,000 ft.
FM 30-30 OPNAV 32P-1200/6 AFM 5
BEAR
ACCENTED
DRAWING
AVsce/faiMOvs views of the BEAK
Identify the aircraft shown above; correct answers are below
U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
iNnoDsiA -9
avaa >
'S
EEI-O '£
VINNV1IM8 'Z
FM 30-30
OPNAV 32P-1200/6 AFM SO-40G
STATE FACTORIES
MOP (GST)
The "Mop" (GST) is the U. S. PBY "Catalina" built under license in the U. S. S. R. The meaning of the designation GST is unknown. It is a twinengine, parasol-wing, flying boat. The wing center section is parallel in chord, supported above the hull on a streamlined superstructure and is braced to the hull by parallel struts. The outer panels have slight taper to square tips. Lateral stabilizing floats retract outward to form end caps at the wing tips. Thfr hull is a two-step type with semicircular too. A stabilizer is carried high on the single fin. The PBY was also built in Canada hy a subsidiary of Boeing and named the Canso. LENGTH: 63'10' SPAN: 104'0" ENGINE: 2/M-62, radial/985 h. p. each. MAX. SPEED: 160 knots/10,000 ft. RANGE: 2,300 nautical miles/100 knots. ARMAMENT: 5 x 7.6 mm; flexible.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
STATE FACTORIES
MOP (GST)
I
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
BLOCHAVINDIN
MUG (MDR-6)
The "Mug" (MDR-6) is a twin-engine, long-range, reconnaissance flying boat. The high cantilever wing tapers on the leading and trailing edges with sharp dihedral on the center-section and less dihedral on the outer sections. The hull is a two-step type with braced single-step stabilizing floats attached about halfway between the hull and the wing tips. The two radial engines are mounted on the leadingedge of the wing. An enclosed cockpit is located forward of the leading-edge with a bow-gun turret and a dorsal gun-turret aft of the wing's trailing edge. LENGTH: 50'9" SPAN: 64'0" ENGINE: 2/M-62, radial/985 h. p. each. MAX. SPEED: 190 knots/14,000 ft. RANGE: 820 nautical miles. ARMAMENT: 4 x 7.62 mm.
U. S. S. R.
SUPPLEMENT NO. 3 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BLOCHAVINDIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
MUG (MDR 6)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BLOCHAVINOIN
MOTE (MBR 2)
The "Mote" (MBR-2) is a single-engine, flying boat monoplane. The wing is tapered moderately to square tips. The hull is of the two-step type. The strut-braced stabilizer is mounted on a single fin. The cockpit is placed forward of the wing and the engine nacelle is carried above the wing on "N" struts. One engine drives a pusher propeller. Lat eral stabilizing floats are fitted on struts under the wing. There is a bow gun ring turret and a dorsal turret which are probably manually operated. The Mote is employed as a reconnaissance bomber. LENGTH: 50'9" SPAN: 64'0" ENGINE: AM-34RNA, in-line, 810 h. p. MAX. SPEED: 135 knots/6,550 ft. RANGE: 570 nautical miles/70 knots. ARMAMENT: 2 x 7.6 mm; flexible.
U. S. S. R.
SUPPLEMENT NO, 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BLOCHAVININ
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
MOTE (MBR-2)
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
ILYUSHIN
BARK (IL-2)
The "Bark" (11-2 Stormovik) is a single-engine, low-wing monoplane. The wings taper to rounded tips. The fuselage is of small cross-section with a pointed nose. The cockpit is very prominent and there is a single fin and rudder. The landing gear retracts rearward into large fairings beneath the wing; tail wheel is fixed. Later versions of this aircraft have a rear gun position in the cockpit and carry a crew of two. The Bark is an assault bomber and is said to be so heavily armored for strafing work that light cannon fire has small effect on its sides. It was in its element when flying low, attacking German tank and mechanized columns. Satellite air forces still use some of these obsolete aircraft. SPAN: 47'10" LENGTH: 38'2" ENGINE: AM-38F, in-line/1,675 h. p. MAX. SPEED: 240 knots/7,900 ft. RANGE: 392 nautical miles/151 knots. ARMAMENT: 2 x 7.6 mm; 2 x 23 mm; 1 x 12.7 mm.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BARK (IL-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
BEAST (11-10)
The "Beast" (11-10) is a two-place close support and reconnaissance monoplane. Soviet designers have been very conscious of the requirements of their ground support units and early inWorldWarll brought into being the famous "Bark" (11-2 Stormovik) "tank buster." In 1944 a heavier, 14,000 pounds, and more powerful development, the Beast appeared as a replacement for the Bark. The engine cowlings on both these aircraft are composed of steel plates 6 to 8 mm in thickness. While both aircraft are similar in appearance, the Beast has a redesigned wing with a slightly sweptback leading edge. Both aircraft are equipped with tail-wheel type retractable landing gear. The Beast forms the backbone of air ground support in the Soviet and Satellite air forces. In Korea it was encountered occasionally and a number were destroyed. SPAN: 44'0" LENGTH: 36'0" ENGINE: AM-42F, V in-line/1,957 h. p. MAX. SPEED: 290 knots/5,500 ft. RANGE: 360 nautical miles/170 knots. ARMAMENT: 2 x 23 mm; 2 x 7.62 mm; 1 x!2.7 mm; 2 x 132 mm rockets.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BEAST (IL-10)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
DOUGLAS
BOX (A-20)
During World War II approximately 2,500 twinengined "Box" (A-20 Havocs) were supplied to the Soviets under Lend-Lease. At that time the Box was rated as one of the best aircraft in the light bomber class. It was originally designed as a fast ground attack day bomber, but its versatility made it available for numerous missions. The night fighter version with a solid nose carried the designa tion P-70, while with the British it was called the Boston. The aircraft was much used in large-scale daylight fighter and bomber sweeps over France and in North Africa. Because of the Box's high performance, striking power, and maneuverability, losses were relatively small. The U. S. Navy des ignation was BD. It is no longer operational in the U. S. The Soviet designation B—3 for this aircraft has been observed from time to time. SPAN: 61'4" LENGTH: 48'0" ENGINE: 2/R-2600, radial/1,600 h. p. each. MAX. SPEED: 270 knots/10,000 ft. RANGE: 700 nautical miles/216 knots. ARMAMENT: 4 x 20 mm; 3 x .50 cal.; 1 x 30 cal.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954 305799 O—54———8
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
DOUGLAS
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
BOX (A 20)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BELL
P-39 AIRACOBRA
American P-39 Airacobras were supplied to the U. S. S. R. during World War II for use in ground strafing and as a low-altitude fighter. This air craft along with the P-63 proved to be very popu lar with the Soviet airmen. In all, more than 9,500 Airacobras were made before production stopped in July 1944. Of this number aproximately 5,000 were delivered to the Soviets under Lend-Lease. Of interest is the engine of the aircraft which is placed amidship in the fuselage behind the pilot's cockpit, the propeller being driven by a ten-foot shaft. Heavy defensive armor protects the pilot against ground fire when operating at low altitudes. The cannon fires through the spinner. A tricycle landing gear is fitted. Take off weight is 8,000 pounds. A 500-pound bomb may be carried. LENGTH: 30'2". SPAN: 34'0". ENGINE: Allison V-1710-85, in-line/1,200 h. p. MAX. SPEED: 350 knots/10,000 ft. RANGE: 350 nautical miles/210 knots. ARMAMENT: 1x37 mm.; 4 x .50 cal.
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
BELL
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951
P-39 AIRACOBRA
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
BELL
FRED (F-63)
The "Fred" (P-63 Kingcobra) is a later and larger version of the P-39. This World War II fighter was never used operationally by the U. S. A. F. The total number of these aircraft delivered to the Soviets amounted to more than 2,300. In addition, Kingcobras were supplied to the French who used them in their war against the Communists in Indo china. Although the Fred differs little in appearance from the P-39, it is an entirely new aircraft. Slightly larger and heavier than the P-39, it incor porated ideas learned through combat experience. Like the P-39, it carries a 37-mm. cannon in its nose. A special modification of the Fred was evolved to serve as a target in the U. S. Army's ammunition training program. Maximum gross weight of the Fred is 9,000 pounds. LENGTH: 32'8" SPAN: 38'4" ENGINE: Allison V-1710-93, in-line/1,325 h. p. MAX. SPEED: 370 knots/15,000 ft. RANGE: 300 nautical miles/220 knots. ARMAMENT: 1 x 37 mm; 4 x .50 cal.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
BELL
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FRED (F-63)
FM 30-30 OPNAV 32P-1800/5 AFM 50-4QE
LAVOCHKIN
LA-5
The LA-5 is a single-seat, low-wing, fighter plane with a single radial engine. The wing is in three sections comprising a normal center section with two outer sections having a pronounced taper on the leading and trailing edges. Both wing tips are round. The fuselage is of triangular section with wooden longerons and birch frames and a skin of diagonal plywood strips. There is an enclosed cockpit above the trailing edge of the wing. A single fin and rounded, full length rudder is inte gral with the fuselage. The landing gear is re tractable conventional type. The LA-5 is in service with the Soviet and the Czechoslovak Air Forces. SPAN: 32'2". LENGTH: 27'10". ENGINE: Ash-82; radial/1,680 h. p. SPEED: 320 knots/16,400 ft. RANGE: 390 nautical miles/210 knots. ARMAMENT: 2 x 20 mm/6 x 132 mm. rkts.
USSR MAX 1949
AFM 50-40 OPNAV 32P-1200
LA-5
LAVOCHKIN
I
USSR MAY 1949
AFM 50-40 OPNAV32P-1200
LAVOCHKIN
FIN (LA-7)
The "Fin" (La-7) is a low-wing fighter developed from the earlier La-5. This fighter has been re placed in the Soviet Air Force by the "Fritz" (La-9) and "Fang" (La-11). It is still in service, however, in Satellite air forces. Lavochkin designed the Fin as a single-seater, but later production included a number of two-seat trainer aircraft. The trainer has a longer cockpit than the fighter to cover the extra pilot. Its fuselage is constructed of wood while the wings and tail unit are metal. The wing is in three sections, comprising a center section with two outer sections having dihedral and taper on the leading and tailing edges to well rounded tips. A convention retractable landing gear is fitted. The Fin's maneuverability is probably attributed to its light weight which is approximately 7,400 pounds. SPAN: 32'2" LENGTH: 26'6" ENGINE: Ash-82 FNV, radial/1,825 h. p. MAX. SPEED: 340 knots/15,500 ft. RANGE: 610 nautical miles/205 knots. ARMAMENT: 2 x 20 mm; 6 x 132 mm rockets; 2 x 220-lb. bombs.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
LAVOCHKIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FIN (LA-7)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
LAVOCHKIN
FRITZ (LA-9)
The "Fritz" (La-9) is a low-wing single-seat fighter of all-metal construction. This aircraft is a further improvement of the Lavochkin fighter series and differs in appearance from the "Fin" (La-7) mainly in that the wings and horizontal stabilizer incorpo rate straight taper and square tips. In addition, it has greater range and greater fire power. The Fritz first became operational in 1946. Although obsolescent by today's jet standards, the Fritz is still in Soviet and Satellite air forces. It features a bulletproof windshield and a bulletproof glass behind the pilot's head. Normal gross weight of the fighter is more than 8,000 pounds which is supported by a two-wheel retractable landing gear. An air scoop is visible on the fuselage aft of the wing's trailing edge. It resembles the Fw-190. LENGTH: 27'10" SPAN: 31'9" ENGINE: Ash-82 FNV, radial/1,825 h. p. MAX. SPEED: 355 knots/15,000 ft. RANGE: 1,000 nautical miles/210 knots. ARMAMENT: 4 x 23 mm, plus rockets.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
LAVOCHKIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FRITZ (LA-9)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
UVOCHKIN
FANG (LA-11)
The "Fang" (La-11) is a low-wing single-seat fighter. This all-metal aircraft is very similar in appearance to the earlier "Fritz," (La-9). Both aircraft are postwar variants of the La-5, "Fin" (La-7) series. The wings of the Fang are tapered on the leading and trailing edges with squared-off wing tips and slight dihedral. Horizontal tail surfaces are mounted below the fuselage top line and have the same outline as the wings. Unlike the Fritz, the Fang does not have a ventral air scoop, instead the car buretor and oil cooler air intakes are inside the en gine cowling. A battered sample of the Fang was on view when a defecting Soviet pilot crash-landed in Sweden in 1949. Performance of these aircraft are believed to be slightly inferior to the F—51 Mustang. LENGTH: 27'10" SPAN: 31'9" ENGINE: Ash-82 FNV, radial/1,825 h. p. MAX. SPEED: 355 knots/15,000 ft. RANGE: 1,000 nautical miles/210 knots. ARMAMENT: 3 x 23 mm.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1500/5 AFM 50-40E
LAVOCHKIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FANG (LA-11)
FM 30-30 OPNAV 3SP-1200/5 AFM 50-40E
YAK-3
YAKOVLEV
The YAK-3 is a single-engine, low-wing fighter. The wing is thin and in halves attached to a center section which forms part of the fuselage. There is taper on the leading and trailing edges with dihedral from the wing roots. The wing has a cov ering of plywood as does the fuselage and tail unit. The landing gear is conventional and retracts in ward. Yakovlev designed the 1-26 (YAK-1) which served as the basis of all later designs, the YAK-3, 7 and 9. Over 10,000 of this series were produced during World War II. From this series of fighter design was evolved the YAK-15, one of the smallest jet fighters in the world. SPAN:
30'2".
27'9".
ENGINE:
VK-105PF2; Vee in-line/1,200 h. p.
SPEED:
325 knots/16,000 ft.
RANGE:
420 nautical miles/220 knots.
ARMAMENT:
USSR MAY 1949
LENGTH:
1 x 20 mm.; 2 x 12.7 mm.
AFM 50-40 OPNAV32P-1200
YAKOVLEV
USSR MAY 1949
YAK-3
AFM 50-40 OPNAV32P-1200
YAKOVLEV
FRANK (YAK-9)
\ • T8-30Q2\
The "Frank" (Yak-9) is a low-wing single-seat prop fighter which is still operational in the Soviet and Satellite air forces. This includes Korea where UN pilots have destroyed a number of them hi combat and on the ground. The Frank's wings are sharply tapered on the leading and trailing edges to rounded tips. A single fin and rudder is fitted which in side view gives the Frank a P-40 appearance. There are several versions of the Frank in service, some are used as fighters and others as reconnaissance or ground attack planes. The major differences are armament changes, fuel capacity, and engines. The illustrations show the Yak-9P which was captured in Korea. This aircraft, an improved version of the Yak-3, has a 9,000 pound take-off weight. SPAN: 32'1" LENGTH: 26'3" ENGINE: VK-107A, V in-line/1,650 h. p. MAX. SPEED: 360 knots/15,000 ft. RANGE: 500 nautical miles/210 knots. ARMAMENT: 2 x 12.7 mm; 1 x 20 mm, in nose.
**-..
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
YAKOVLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FRANK (YAK-9)
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
YAKOVLEV
YAK-15
The Yak-15 is a mid-wing single-seat fighter pow ered by a single jet installed in the lower forward half .of the fuselage. Air intake for the axial-flow jet is in the oval nose and the exhaust is beneath the fuselage just forward of the trailing edge of the wing. The wing tapers on the leading and trailing edges to relatively pointed tips. A bubble canopy is mounted just forward of the trailing edge of the wing which suggests poor pilot visibility. The conventional single tail closely resembles pre vious Yakovlev designs. A point of interest is the use of a tail-wheel (partially retractable) type landing gear. In later models, the Type 16, 26, and 28, a tricycle type landing gear was fitted. The all-metal Yak-15 is thought to be inferior to the MIG-9 but it is very light and maneuverable. Yak-15s are operational in satellite air forces. SPAN: 30'0". LENGTH: 29'0". ENGINE: Jumo 004B4/l,980-lb. thrust. MAX. SPEED: 425 knots/13,000 ft. RANGE: 400 nautical miles/350 knots. ARMAMENT: 2x20 mm. in nose.
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
YAKOVLEV
U.S.S.R. SUPPLEMENT NO. 2 JUNE 1951 ,
YAK-15
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
YAKOVLEV
FEATHER (YAK-17)
The "Feather" (Yak-17) is a single-seat jet fighter which differs foremost from the Yak-15 by the addition of a nose wheel. In the tricycle version, the retractable nose wheel is enclosed by an external fairing. The fin and rudder have been slightly modified, appearing larger and more upright than in the Yak-15 and also less pointed at the tip. This model has the same poorly situated bubble canopy as its predecessor. The Feather's tapering wings appear identical to the wings of the Yak-15. A two-place trainer version is in existence and has been designated "Magnet" (UYak-17). Both Yak jet fighters were produced in quantity as interim jet fighters. These jets are used in the fighter squadrons of the satellite countries. The "Flora" (Yak-23) is a later variant of the Feather. SPAN: 31'5" LENGTH: 28'2" ENGINE: Jumo-004D, turbojet/2,200-lb. thrust. MAX. SPEED: 445 knots/10,000 ft. RANGE: Approx. 400 nautical miles/350 knots. ARMAMENT: 2 x 20 or 23 mm in upper nose.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
YAKOYLEV
U. S. S. R. SUPPLEMENT NO, 5 JUNE 1954
FEATHER (YAK-17)
PM 30-30
OPNAV 32P-1 BOO/5 AFM 50-40E
YAKOVLEV
FLORA (YAK-23)
The "Flora" (Yak-23) is the latest jet fighter addition in the Yak family. Although the jet bears a superficial resemblance to the earlier Yak jets, the aircraft is almost entirely different. Changes incorporated in the Flora go far beyond the slight innovations marking the emergence of the "Feather" (Yak-17). The fuselage presents a chunkier appear ance with the forward portion noticeably deeper. Among other things, this provides for full retraction of the tricycle landing gear, eliminating the nose wheel fairing which distinguished the Feather. Its wing taper is less pronounced, span is reduced and tips blunted. A slight change of height in the fin is noticeable, while the horizontal surfaces have been altered radically. The Flora's take-off weight is approximately 9,000 pounds. SPAN: 28'6" LENGTH: 27'2" ENGINE: Derwent-type turbojet/3,500-lb. thrust. MAX. SPEED: 500 knots/10,000 ft. RANGE: 960 nautical miles/405 knots (tip tanks). ARMAMENT: 2 x 33 mm lower nose.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
YAKOVLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FLORA (YAK-23)
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
MIKOYAN AND GUREVICH
(FARGO MIG 9)
The "Fargo" (MIG-9) is a mid-wing single-seat twin-jet fighter. Dual air intakes for the axial-flow jets are located in the nose and twin exhausts are under the fuselage at the trailing edge of the wing. On the ventral side of the fuselage behind the exhausts a cut-away for the jet stream creates the appearance of a keel. The wing is straight on the leading edge and tapered on the trailing edge to blunt tips. A single tail and tricycle retractable landing gear are fitted. The cockpit is forward of the wing which gives a good field of vision. Arma ment extends unusually far forward of the nose. It was the first operational jet fighter to appear in the U. S. S. R. Performance of the Fargo is comparable to the F-80 Shooting Star and the British Vampire. The Fargo was replaced by the sweptback wing and tail "Falcon" (MIG-15) jet fighter. SPAN: 34'0" LENGTH: 32'9" ENGINE: 2/BMW 003A/l,760-lb. thrust each. MAX. SPEED: 510 knots/6,000 ft. RANGE: 425 nautical miles/405 knots. ARMAMENT: 1 x 37 mm; 2 x 23 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954 305799 O—54-—
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
MIKOYAN AND GUREVICH
FARGO (MIG-9)
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
MIKOYAN AND GUREVICH
FALCON (MIG-15)
The Soviet's "Falcon" (MIG-15) jet fighter was encountered in Korea by U. N. jet pilots. Ensuing engagements constituted history's first record of jet against jet aerial warfare. Design of this firstline single-seat fighter is attributed to the MikoyanGurevich team. The Falcon has a single centrifugalflow turbojet engine installed in the after half of its fuselage. Narrow wings, horizontal and vertical tail surfaces—all have pronounced sweepback and squared tips. The angle of the wings' sweepback is around 35°, approximately the same as that of the F-86. Resembling the F-86 in layout, the Falcon's wings, however, are midmounted while the F-86 has low mounted wings. Another dif ference is the Falcon's high mounted horizontal stabilizer on its broad fin and rudder. The "Midget" (UMIG—15) is a two-scat trainer version of the Falcon with a longer cockpit canopy. SPAN: 33'0" LENGTH: 33'7" ENGINE: VK-1, Nene-type/6,000-lb. thrust. MAX. SPEED: 575 knots plus/sea level. RANGE: 650 nautical miles/470 knots. ARMAMENT: 1 x 37 mm; 2 x 23 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
MIKOYAN AND GUREVICH
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FALCON (MIG-15)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MIKOYAN AND GUREVICH
FRESCO
The "Fresco" is an improved successor to the "Fal con" (MIG-15) and has been seen in fly-bys over Moscow during recent Soviet air shows. This new single-jet fighter marks another advance in Soviet jet fighter design. Patterned after the Falcon, this new aircraft appears to have greater sweepback to its wings and to be more slender and tapered than its predecessor. The cockpit is mounted well for ward and square-tipped swept-back wings are midmounted. The prominent fin and rudder appear more slender and slightly less swept-back than the tail of the Falcon. The smooth line from Fresco's rudder's trailing edge to the jet exhaust is noticeably different than the Falcon's prominent stepback rudder. A keel-like bulge is evident on the underside of the after-end of the fuselage.
LENGTH: 36'0" SPAN: 34'0" ENGINE: Turbojet/more than 6,000 Ibs. thrust. MAX. SPEED: More than 600 knots. RANGE: More than 600 nautical miles. ARMAMENT: 1 x 37 mm; 2 x 33 mm.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MIKOYAN AND GUREVICH
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FRESCO
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
FANTAIL (TYPE 15)
LAVOCHKIN
>***>—•-
^
The "Fantail" is a sweptback wing and tail fighter. This single jet fighter was probably developed simultaneously with its counterpart the Falcon (MIG-15), but the Lavochkin designed Fantail has not been seen anywhere near as often as the Falcon. The Fantail is slightly larger than the Falcon and differs noticeably in that it is a shoulder-wing fighter. Other differences are the slimness of the Fantail's fuselage, the keel type fairing on the after bottom of the fuselage, and the main gear of the tricycle landing gear which retracts into the fuselage. Its wings are rather narrow and appear to have some negative dihedral. Boundary layer air-flow control strips are fitted on each wing. LENGTH: 33'6" SPAN: 34'2" ENGINE: Nene-type turbojet/5,000-lb. thrust. MAX. SPEED: 570 knots plus/sea level. RANGE: 600 nautical miles/560 knots. ARMAMENT: 2 x 22 mm in nose.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
LAVOCHKIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FANTAIL (TYPE 15)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
USSR
The Flashlight is a two-place, mid-wing, twinengine, all-weather Soviet fighter. Recognition fea tures include a horizontal stabilizer located high on the vertical fin; a large, blunt-rounded nose ex tending well forward of the wing root; a fin-like protrusion on the underside of the aft fuselage; two underslung turbojets; two wing-tip pods with booms extending forward on each; and wing fences on each wing. The Flashlight is similar to the French Vautour in appearance. SPAN: 46' LENGTH : 39' MAXIMUM SPEED: Over 600 knots ENGINES: 2/Turbojet/10,000 Ibs. thrust each SERVICE CEILING: Over 40,000 ft.
U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
FLASHLIGHT
SOVIET TWIN-JET FIGHTER
FM 30-30 OPNAV 32P-I200/6. ARM 50-40G
FLASHLIGHT
ACCENTED
DRAWING
Miscellaneous views of the FLASHLIGHT
Identify the aircraft shown above; correct answers are below
99-8 '9 'S U. S. S. R, SUPPLEMENT NO. 6 DECEMBER 1956
99-a > '€
aom*IVMA>IS 99-8 '
FM 30-30 OPNAV 32P-1200/4 AFM 50-40G
USSR
The Farmer is a single-seat, mid-wing Soviet fighter. The wings and slab-shaped tail surfaces are sweptback more than 40 degrees. The fuse lage is short and flat on both top and bottom. Close-up recognition features include the oblate nose air inlet, wing fences, empennage over hanging the tailpipe exhaust, and the low-set horizontal stabilizer. Overall appearances of the Farmer is that of a "swept" airplane whose fuse lage has been run between rollers for flattening. SPAN:33'8" LENGTH: S4'll" MAXIMUM SPEED: Over Mach 1 ENGINE: 1/10,000 Ibs. thrust
U, S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
FARMER
SOVIET SINGLE-JET FIGHTER
FM 30-30 OPNAV 32P-I200/6 AFM 50-406
CAMEL
USSR
The Camel is a relatively new Soviet transport. Its design features include a long, circular cross sectioned fuselage; sharply sweptback wings that show distinct anhedral or droop; a sweptback em pennage with a low-set horizontal stabilizer; two engine nacelles located at the wing roots and ex tending ahead of and aft of the wing; and a landing gear housing trailing aft of each wing. The Camel carries the markings of Aeroflot, the Russian civil airline. A blue strip extends the length of the silver fuselage. A red flag is painted on the fin. Hammer-and-sickle insignia appears near mid-fuselage. SPAN: 118' LENGTH: 120' MAXIMUM SPEED: 540 knots ENGINES: 2/M209/over 15,000 Ibs. thrust each
U. S. S. R. SUPPLEMENT NO. 6 DECEMBER 1956
SOVIET TWIN-JET TRANSPORT RANGE: Over 2500 nautical miles CRUISING ALTITUDE: 32,500 to 39,000 ft. CRUISING SPEED: 435 to 475 knots PASSENGER CAPACITY: 70 to 80
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G
LISITSIN
CAB (LI-2)
The Cab (LI-2) is a twin-engined low-wing trans port monoplane. Its wing tapers to rounded tips. There is a single fin and rudder. Landing gear is retractable. It has a capacity of 5,000 pounds of freight or 21 passengers and a crew of 3. The Cab is the U. S. S. R. version of the U. S. DC-3 (C-47/ R4D) transport. This aircraft was originally desig nated PS-84. During World War II, a large number of C-47 Skytrains were supplied to Russia under Lend-Lease. In addition to being the standard Russian troop and paratroop transport, Cab is also widely used as a passenger airliner by Aeroflot. LENGTH: 64'6" SPAN: 95'0" p. each. h. radial/985 ENGINE: 2/Ash-62, ft. 0 MAX. SPEED: 170 knots/5,00 RANGE: 1,460 nautical miles/120 knots. ARMAMENT: Normally none.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 19S4
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
LISITSIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
CAB (LI-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
COACH (IL-12)
The modified "Coach" (IL-12) differs from the IL-12 twin-engine transport in that it has added a fin fairing extending along the after part of the fuselage. 'Its low whig has positive dihedral; the center section is of rectangular shape while the outer sections are trapezoidal with rounded tips. Split landing flaps extend the entire span of the center section. It has a single tail and retractable tricycle landing gear. The main wheels are dual, retracting into the engine nacelles and the nose wheel is single. Versions exist with passenger capacities from 18 to 32. The trans port is similar to the C-47/R4D, but the Coach's wing is placed farther aft than C-47's. Flying European air routes for the U. S. S. R. and Satellites, it has been seen on numerous occasions this side of the iron curtain. A newer version with a square rudder is called the Crate. LENGTH: 69'10" SPAN: 104'0" ENGINE: 2/Ash-82, radial/1,825 h. p. each. MAX. SPEED: 212 knots/17,000 ft. RANGE: 1,300 nautical miles/165 knots. ARMAMENT: None.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
COACH (IL-12)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ILYUSHIN
CLAM (IL 18)
The"Clam"(IL-18) is a four-engined low-wing trans port with a capacity of 66 passengers. From a recognition view, its fuselage appears to be cigar shaped with no prominent windshield. The Clam wing roots are faired into the fuselage with the fairing extending aft of the trailing edge of the wing. Its wings taper on both leading and trailing edges to relatively narrow chord rounded wing tips. The prominent triangular fin has a slight forward fairing along the top of the fuselage. A tricycle landing gear with dual wheels is fitted. Superficially the Clam resembles the British Tudor 7 and is evidently a scaled-up "Coach" (IL-12) also designed by Ilyushin. The Clam is slightly larger than the DC-4. Its take-off weight is around 90,000 pounds. The Clam has not been sighted often. SPAN: 131'0" LENGTH: lOO'O" ENGINE: 4/Ash-82 FN radial/1,825 h. p. each. MAX. SPEED: 240 knots/15,000 ft. RANGE: 1,700 nautical miles/175 knots. ARMAMENT: None.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
ILYUSHIN
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
CLAM (IL-18)
FM 30-30 OPNAV 32P-1SOO/5 AFM 50-40E
TUPOLEV
CART (TU-70)
The "Cart" (TU-70) is a four-engined low mid-wing transport which resembles the B-29 in configuration. Design of the Cart is based on the B-29. Several of these bombers were confiscated during the war when forced to land in Soviet occupied territory. A major difference is that the Cart has a longer fuselage which is mounted higher on the wing. In spite of its similarity to the B-29, the side windows and the form of the cockpit indicate that the Cart is not equipped with a pressurized cabin. Soviet copies of the Wright Cyclone provide the necessary power. The redesign of the B-29 was produced by the versatile Andrei Tupolev, co-founder of the Soviet aviation industry. It has a seating capacity of 72 passengers or 54 paratroops. The take-off weight of the Cart is around 140,000 pounds. SPAN: 141'3" LENGTH: 119'0" ENGINE: 4/Ash-90 radial/2,200 h p. each. MAX. SPEED: 280 knots/17,000 ft. RANGE: 2,300 nautical miles/175 knots. ARMAMENT: None.
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
TUPOLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
CART (TU-70)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ANTONOV
COLT (AN-2)
The "Colt" (AN-2) is a single engine light transport with biplane wings. It is of recent vintage having just appeared in Satellite air forces. The biplane has a utilitarian appearance borne out by its large boxlike fuselage. Circular windows are spaced along the side. A radial engine with a large propeller spinner provides the Colt with power. The biplane's wings are braced together by two single struts placed about two-thirds outboard of either side of the fuselage. Between the struts and fuselage are crossing guy-wires. The rectangular horizontal sta bilizer attached midway on the rudder has brace supports attached to the fuselage. A large curved fin and rudder provide a good recognition feature. The landing gear is a fixed tail-wheel type. SPAN: 48'8" LENGTH: 37'2" ENGINE: Ash 62 radial/980 h. p. MAX: SPEED: 135 knots/7,000 ft. RANGE: 850 nautical miles/95 knots. ARMAMENT: None.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954 305799 O - 54 - 10
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
ANTONOV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
COLT (AN-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MIKOYAN AND GUREVICH
MIDGET (UMIG-15)
The "Midget" (UMIG-15) is a tandem two-place trainer version of the "Falcon" (MIG-15) jet fighter. From a recognition standpoint, the two aircraft are identical with the exception of the Midget's elongated cockpit canopy. Design of both the Midget and Falcon is attributed to the Mikoyan-Gurevich team. Both aircraft have a single centrifugal-flow turbojet engine installed in the after half of their fuselages. Narrow wings, horizontal and vertical tail surfaces all have pronounced sweepback and squared tips. The angle of the wings sweepback is around 35°, approximately the same as that of the F-86. A feature of the Midget is its high-mounted horizontal stabilizer on its broad fin and rudder. The Midget is a standard jet trainer in the Soviet and Satellite air forces. Its takeoff weight is around 11,000 pounds. SPAN: 33'0" LENGTH: 33'7" ENGINE: Nene-type turbojet/5,000-lb. thrust. MAX. SPEED: 570 knots. RANGE: APPROX. 650 nautical miles/440 knots. ARMAMENT: 1 x 37 mm; 2 x 23 mm.
U. S. S. R. SUPPLEMENT- NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
MIKOYAN AND GUREVICH
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
MIDGET (UMIG-15)
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
YAKOVLEV
MAGNET (UYAK-17)
The "Magnet" (UYak-17) is a tandem two-place trainer version of the "Feather" (Yak-17) jet fighter. From a recognition standpoint the two aircraft are identical with the exception of the Magnet's elon gated cockpit canopy. Design of both the Magnet and Feather is attributed to Yakovlev. Both air craft are developments of the Yak-15. The Magnet and Feather differ from the Yak-15 by the addition of a nose wheel which is enclosed by an external fairing. The fin and rudder have been slightly modified, appearing larger and more upright than in the Yak-15. Like the Feather, the Magnet's wings are straight wih equi-taper. The Magnet is inferior in performance to the Midget, the only other comparable jet fighter trainer. Performance of the Magnet is similar to the Feather's. LENGTH: 29'0" SPAN: 30'0" ENGINE: Jumo-004D, turbojet/2,200-lb. thrust. MAX. SPEED: 430 knots plus. RANGE: Approx. 400 nautical miles/350 knots. ARMAMENT: 2 x 20 or 23 mm in upper nose.
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
YAKOVLEV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
MAGNET (UYAK-17)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
POLIKARPOV
\
U. S. S. R.
SUPPLEMENT NO. 5 JUNE 1954
MULE (PO-2)
L
The "Mule" (PO-2) is one of the oldest Soviet air craft still in use. This small biplane is of wood and fabric construction and is used as a trainer, ambu lance, bomber, reconnaissance and liaison, etc. A fixed landing gear, a single fin and rudder, and a braced stabilizer are fitted. The biplane's wings are held together by N-type struts. Normally the Mule is a two-seater but three-seat versions ap peared in 1930 while the ambulance variants carry four. An unusual version carried a "panier-nacelle" on each lower wing and was able to carry two stretcher cases. The Mule has been used for spray ing while other versions have been equipped with skis and floats. During World War II, it annoyed the Germans as a night nuisance bomber, some times dropping as much as 220 pounds of bombs. Rockets were attached to the wings of some of these small biplanes and these assault versions were used in the final battle for Berlin. In Korea, the Mule was active in this role and was referred to as "Bed Check Charley." SPAN: 37'5" LENGTH: 26'8" ENGINE: Radial, 5 cylinder/125 h. p. MAX. SPEED: 90 knots. RANGE: 360 nautical miles. ARMAMENT: 4 x 7.62 mm; 6 x 55-lb. bombs.
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
POLIKARPOV
U. S. S. R. SUPPLEMENT NO. 5 JUNE 1954
MULE (PO-2)
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SWEDEN AIRFORCE AND AIRCRAFT
SWED EN
RESTRICTED"
SWEDEN (The Kingdom of Sweden) The Swedish Royal Air Force
The Swedish Royal Air Force, Flygvapnet, is an independent force responsible to the Commander-in-Chief of the Armed Forces, Overbetalhavaren. The Chief of the Air Force is a LieutenantGeneral who is responsible to the Overbetalhava-
ren, with headquarters at Stockholm. The central administration of the Air Force includes the Air Staff, Flygstaben, the Royal Air Board, Kungl Flygtorvaltningen, and the Chief Medical Officer. The Chief of the Air Staff is a Major-General.
Equipment
Designation
Manufacturer
Country
Type
Designation
Manufacturer
Country
Type
Light Bomber
A-18B
Saab
Sweden
Attack
B-17 A-21 T-18B B-5 (Target Tow Plane)
Saab Saab Saab
Sweden Sweden Sweden
Saab
Sweden
Sweden Saab Reconnaissance S-18A S-14 Storch Germany Fieseler Fi 156 Sweden Saab S-17 Germany Dornier Do 24 TP-47 Catalina U.S.A. Convair PBY (A-10) • U.S.A. Seversky J-9 (F-35) Germany Junkers B-3 (Ju 86K) Transport TP-45 Voyager U.S.A. Beechcraft C45 (JRB) G.B. de Havilland TP-46 Dove SK-14 Texan T6 Trainer U.S.A. North American (SNJ) Germany SK-25 (Bu 131) Biicher SK-16 Texan T-6 U.S.A. North American (SNJ)
Fighter
MAY 1949
G.B. de Havilland J-28 Vampire Sweden Saab J-21 Sweden Army Factory J-22 J-26 Mustang F-51 North American U.S.A. Vickers-Armstrongs G.B. Spitfire 19 G.B. de Havilland Mosquito Sweden Saab J-21R (Jet) Sweden Saab J-29 (Jet)
AFM 50-40 OPNAV32P-1200
SAAB
B-18
The B-18 is a three-place high-wing bomber equipped with twin-engines of either in-line or ra dial type. It has a slim fuselage with a bulbous nose. The wings have constant taper from fuse lage to tips with all of the taper on the trailing edge tips. The fuselage is oval and stepped up be neath the leading edge of the wings to provide a ventral rear firing gun position. Twin fins and rud ders are fitted. The pilot's cockpit is placed to the left of the fuselage center line. Retractable con ventional type landing gear is utilized. Bombs are carried both internally and externally. In 1947, 16 Saab B-18's were supplied to the Ethiopian Air Force. (B-18A, P&W radial; B-18B, DB 605B in line.) SPAN: 55'10". LENGTH: 43'10". ENGINE: R-1830; radial/1,050 h. p. or DB 605B; in-line/1,475 h. p. SPEED: 247 knots/15,000 ft. RANGE: 765 nautical miles/178 knots. ARMAMENT: 3 x 13.2 mm.; 2 x 8 mm.
SWEDEN MAY 1949
AFM 50-40 OPNAV 32P-1200
SAAB
SWEDEN MAY 1949
B-18
AFM 50-40 OPNAV32P-1200
J-21
SAAB
The J-21 is a single-seat, single-engine, twinboom, pusher type, low-wing fighter. The pilot's visibility is excellent as the cockpit is situated for ward of the leading edge of the wing, and is unobscured by engine and propeller. Twin fins and rud ders extend below as well as above the booms with a stabilizer set midway between. The wing has a straight centerboard section and sweptback outer panels. Retractable tricycle landing gear is util ized. A bomb load of 1,200 pounds may be carried. For quick escape the pilot's seat is fitted with catapault gear. There are provisions for the carrying of rockets under the wings. SPAN:
38'0".
34'3".
ENGINE:
DB 605B; Vee in-line/1,450 h. p.
SPEED:
350 knots/16,000 ft.
RANGE:
565 nautical miles/227 knots.
ARMAMENT:
SWEDEN MAY 1949
LENGTH:
1 x 20 mm.; 4 x 13.2 mm.
AFM 50-40 OPNAV 32P-1200
SAAB
SWEDEN MAY 1949
J-21
AFM 50-40 OPNAV32P-1200
J-21R
SAAB
The J-21R closely resembles the J-21, sometimes called the "Beetle", except that a turbo-jet engine is fitted instead of a pusher type reciprocating en gine. It is a single-seat, single-engine, twin-boom fighter of all metal construction. A stabilizer is set high between the twin rudders. The wing has a straight centerboard section and sweptback outer panels. The pilot's cockpit is located in an oval fuselage above and forward of the leading edge of the wing. Retractable tricycle landing gear is fit ted. For quick escape the pilot's seat is fitted with catapault gear. There are provisions for the carry ing of ten 10 cm. rockets. SPAN:
38'7".
34'9".
ENGINE:
Goblin 2; turbo-jet/3,000-lb. thrust.
SPEED:
431 knots/15,000 ft.
RANGE:
440 nautical miles/350 knots.
ARMAMENT:
SWEDEN MAY 1949
LENGTH:
1 x 20 mm.; 4 x 13.2 mm.
AFM 50-40 OPNAV 32P-1200
SAAB
J-21R
^•'•i JW SWEDEN MAY 1949
AFM 50-40 OPNAV32P-1200
J-22
SAAB
JL
The J-22 is a sin-gle-seat, single-engine, low-midwing fighter. The wings taper slightly to square tips and have a plywood skin. The fuselage is ovalshaped with birch plywood covering. A single tail and retractable conventional landing gear are fit ted. Because of its clean design and light weight, the J-22 obtains a comparatively high speed for its low power. Owing to the difficulty, at that time, of purchasing aircraft abroad, the Swedish Air Board undertook the design and construction of the J-22. SPAN:
32'10".
ENGINE:
R-1830-17; radial/1,200 h. p.
SPEED:
300 knots/15,000 ft.
RANGE:
486 nautical miles/160 knots.
ARMAMENT:
SWEDEN MAY 1949
LENGTH:
25'7".
4 x 13.2 mm. fixed in wing.
AFM 50-40 OPNAV 32P-1200
SAAB
SWEDEN MAY 1949
J-22
AFM 50-40 OPNAV 32P-1200
SAAB
J-29
The J-29 "Barrel" is a mid-wing single-seat jet fighter. A-Thousand-and-One-Nights was the name given by the factory workers to the SAAB^ 1001 jet fighter; later it was designated the J-29 by the R.S.A.F. and nicknamed the "Barrel." It is considered the first expressly designed Swedish jet fighter. A squat barrel-like fuselage houses a British Ghost centrifugal-flow jet engine with a nose air intake. As in the F9F Panther, Yak-15, "and MIG-9 the exhaust is out the ventral side of the fuselage forward of the rudder extremity. The thin wings have 45° sweepback at root and 28° near the wing tips. It is equipped with a pres surized cockpit with a jettisonable canopy, a gun powder-driven ejector seat and a tricycle landing gear. The J-29's configuration places it in a class with our F-86 and the Soviet's MIG-15. LENGTH: 33'5' SPAN: 36'0". ENGINE: D. H. Ghost/5,000-lb. thrust. MAX. SPEED: 570 knots plus. RANGE: 1,000 nautical miles (approx.). ARMAMENT: 4x20 mm. plus rockets.
SWEDEN SUPPLEMENT NO. 2 JUNE 1951
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SAAB
SWEDEN SUPPLEMENT NO. 2 JUNE 1951
J-29
FM 30-30 OPNAV 32P-I200/2 AFM 50-40B
SAAB
A 32 LANSEN
The A-32 is a single jet low swept-wing two-seat all-weather attack fighter, designed primarily for attack operations against ground and sea targets. Its first flight was made in November 1952. The wings, movable stabilizer, and fin are swept-back at an angle (35°) greater than that used on the J-29 jet fighter. Both ailerons and elevators have hydraulic boost controls. Cheek air scopes are featured on either side of the slender fuselage and big fairings are used to smooth the airflow at the root of the movable tail surface. The pilot and radar operator sit in tandem in a pressurized cockpit equipped with ejector seats. A tricycle landing gear is used with the main gear retracting inward. The triangular fin under the fuselage nose is one of the aircraft's many aerials. Electronic equipment is fitted for navigation and combat. Its take-off weight is over 20,000 pounds. LENGTH: 49'2" SPAN: 42'8" ENGINE: R. R. Avon turbojet/6,500-lb. thrust. MAX. SPEED: 590 knots. RANGE: 1,000 nautical miles. ARMAMENT: Cannons and rockets.
FRANCE SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SAAB
FRANCE SUPPLEMENT NO. 5 JUNE 1954
A 32 LANSEN
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SAAB-90
SAAB
The Saab-90 is a twin-engine, low-wing mono plane transport. The engines are situated on the wing center section rather close to the fuselage. The pilot's cabin is just forward of the engine nacelles overlooking a rounded nose. The wings have dihedral from the roots with evenly tapered leading and trailing edges. The fin and rudder is rather tall with a long fairing projected forward into the fuselage. It is fitted with a retractable tri cycle landing gear. The general appearance is similar to that of the U.S. C-47. It has a capacity of 24 to 32 passengers. SPAN:
ENGINE:
2/R-2000; radial/1,450 h. p.
SPEED:
231 knots/6,800 ft.
RANGE:
890 nautical miles/210 knots.
ARMAMENT:
SWEDEN MAY 1949
LENGTH:
91'10".
69'11".
None.
AFM 50-40 OPNAV 32P-1200
SAAB
SWEDEN MAY 1949
SAAB-90
AFM 50-40 OPNAV32P-1200
SAAB
SAAB-91 SAFIR
The Saab-91 Safir is a Swedish designed single-engine low-wing primary trainer built by Saab as well as Dutch De Schelde. It is designated SK 50 in the RSAF. The Safir first flew in 1945 powered by a 130 h. p. and later 145 h. p. British Gypsy Major. A later version, the Saab-9lB, has three seats and is fitted with a Lycoming engine. This version flew in 1949 and is now being built by the Dutch under license. A four-seater, the 91C with a Lycoming engine, is also being produced. The Safir has been exported to Argentina, Brazil, Ethiopia, Holland, India, and is used by the pilot training school of the SABENA, Belgian Airline. Experimental variants of the Safir have been fitted with swept-back wings to determine flight test information on the J-29 jet fighter's wings. The aircraft features a retract able tricycle landing gear. SPAN: 34'9" LENGTH: 26'0" ENGINE: Lycoming 0-435A, in-line/190 h. p. MAX. SPEED: 150 knots. RANGE: 590 nautical miles/115 knots. ARMAMENT: None.
FRANCE SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SAAB
FRANCE SUPPLEMENT NO. 5 JUNE 1954
SAAB-91 SAFIR
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
FRANCE AIR FORCE AND AIRCRAFT
Securit^lnfui mulion
FRANCE AIR FORCE AND AIRCRAFT
FRANCE (The French Republic) The French Air Force
Service aviation in France, is divided between the Air Force, Armee de 1'Air, and the Naval Air Arm, Aeronavale. The nominal Commander in Chief of the Armed Forces is the President of the Republic. He presides over two advisory bodies, the Supreme National Defense Council and the National Defense Com mittee.
Under the Ministry of the Armed Forces are three Uncler-Secretaries of State, Army, Air, Navy. Also reporting to the Minister are the Chiefs of Staff Committee and the Inspector-General of the Armed Forces. The Air Force
The Chief of the Air Staff and Commander in Chief of the Air Force is a General, who is also Chairman of the Chief of Staff Committee.
Equipment Type
Designation
Manufacturer
Country
Type
Designation
Manufacturer
Country
Light Bomber
Halifax Mk. 6 Invader B-26/JD
Handley Page
G. B.
Liaison
Martinet
Miles
G. B.
Douglas
U. S. A.
U. S. A. France
Republic Vickers
France
Grumann Grumann
U. G. U. U.
Beechcraft S. N. C. A. N. S. N. C. A. S. F, Martin
U. S. A.
de Havilland
G. B.
S. N. C. A. N.
France
Dassault
France
S. N. C. A. N.
France
Dassault S. N. C. A. S. N. C. A. S. E. de Havilland Republic North American Lockheed
France France
Piper Dassault Dassault de Havilland S. N. C. A. N.
U. S. A. France France G. B. France
Douglas
U. S. A.
S. I. P. A.
France
Cessna
U. S. A.
Vickers A. V. Roe
G. B. G. B.
Lockheed de Havilland Bell North American Killer
U. S. A. G. B. U. S. A.
Fighter
Thunderbolt
F-47N Spitfire Mk. 9 Hellcat F6F Bearcat F8F Mosquito Mk. 30 Ouragon M. D. 450
Goeland
LeO 45
S. A. B. S. A. S. A.
Mystere
M. D. 452 Venom Vampire Mk. 53 Vampire Mk. 5 Thunderjet F-84
Reconnaissance
Mustang F-51 Lightning F-38
Transport
Trainer
France G. B. U. S. A. U. S. A. U. S. A.
Douglas
U. S. A.
Douglas Junkers
U. S. A. Germany
Sud-Ouest
France
Martin
U. S. A.
Dassault
France
Skymaster
C-54/R5D Ju. 52 Bretagne S. O. SOP Marauder ZB-26B/JM Flamant M. D. 315
SUPPLEMENT NO. 4 JUNE 1953
Maryland M-167 Pingouin Nord 1002 Ramier Nord 1100 Grasshopper L-4/NE M. S. 472 M. D. 230 Tiger Moth Stampe SV-4 Dauntless SBD/A-24 S. I. P. A. S. 10, 11 Bobcat C-78/JRC Wellington Mk. 10 Anson
Skytrain
C-47/R4D
Voyager C-45/JRB
Shooting Star T-33/TV-2 Vampire Mk. 1 Airacobra F-39 Texan T-6/SNJ Helicopter
HTL/H-23 H04S/H-19 HUP
Sikorsky
Piasecki
U. U. U. U.
S. S. S. S.
A. A. A. A.
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
RESTRICTED Security Information
Naval Aviation
The French Naval Air Arm is administered by the Ministry of Marine, but certain units for operational purposes come under the control of the Air Force. The officer commanding the N aval Air Arm is a Hear Admiral. The Naval Air Arm operates four aircraft carriers:
Arromanches (H. M. S. Colossus), which is on loan from the Royal Navy; two light fleet carriers, Lafay ette (formerly Langley CVL-27) and Clemenceau (formerly Belleau Wood CVL-24); and a light escortcarrier Dixmude (formerly H. M. S. Biter). The old French aircraft-carrier Beam is now classified as an aircraft transport.
Equipment Type
Designation
Patrol Bomber
Lancaster Wellington Sunderland Privateer P4Y-2 Harpoon PV-2 Neptune P2V Helldiver SB2C/A-25 Avenger TBM3E Hellcat F6F-5, 5N Corsair F4U-7
Attack Bomber
Fighter
Reconnaissance
Catalina PBY5A/OA-10 Noroit 1400 Sea Otter
SUPPLEMENT NO. 4 JUNE 1953
Manufacturer A. V. Roe Vickers Short
G. B. G. B. G. B.
Convair Lockheed Lockheed
U. S. A. U. S. A. U. S. A.
Curtiss
U. S. A.
Martin
U. S. A.
Grumman Chance Vought
U. S. A. U. S. A.
Convair Nord Vickers
U. S. A. France G. B.
Country
Type Transport
Trainer
Designation Skytrain C-47/ R4D Ju. 52 Languedoc S. E. 161 Breguet 731 Stampe S. V. 4 Corse II S. 0. 95 S. C. A. N. 20 Voyager C-45/ JRB Anson M. S. 474 Seafire Mk. 3, 15
Manufacturer
Country
Douglas Junkers
U. S. A. Germany
Sud-Est Breguet S. N. C. A. N.
France France France
Sud-Ouest S. C. A. N.
France France
Beechcraft A. V. Roe MoraneSaulnier Vickers
U. S. A. G. B. France G. B.
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
MARCEL DASSAULT
M. D. 450 OURAGAN
The M. D. 450 Ouragan (Hurricane) is a low straight wing jet fighter with a high set fin and stabilizer. The Ouragan was first flown in February 1949 and has since been ordered into production for the French Air Force and Indian Air Force. During Operation "Swing" in March 1952, four of these air craft, the first to become operational, participated in the maneuvers. A modified version has elec tronics in the nose section and cheek air scoops. This is a test model for the M. D. 453 Mystere de Nuit two-seat all-weather fighter. Another version with swept-wings is designated M. D. 452 Mystere. The M. D. 451 Aladdin is a photographic version. A French-built Nene powers the Ouragan. The com bat weight of the M. D. 450 is approximately 13,000 Ibs. SPAN: 39'11" LENGTH: 35'0" ENGINE: Hispano-Suiza Nene/5,000-lb. thrust. MAX. SPEED: 510 knots/sea level. RANGE: 675 nautical miles/400 knots. ARMAMENT: 4 x 20 or 30 mm in nose; 16 rockets.
SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
MARCEL DASSAULT
FRANCE
SUPPLEMENT NO. 4 JUNE 1953
M. D. 450 OURAGAN
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
SUD-OUEST
SO-4050 VAUTOUR
The S. 0.4050 Vautour is a swept-wing (35°) twin-jet aircraft designed to fulfill a variety of roles. There are three versions of the Vautour; a single seater fighter-bomber, two-seater light bomber, and a twoseater all-weather fighter. The first prototype, fitted with two Atar jet engines, made its maiden flight in October 1952. Its fuselage has fairly clean lines. External engine nacelles, with direct highefficiency air intakes, are smoothly attached to the wing, which permit the fitting of various types of engines with ratings up to 10,000-pounds thrust. The wing has no breaks in its structure and runs right through the fuselage. A bicycle type landing gear is fitted. The nose section can house radar gear and armament, while the center of the fuselage can carry bombs, missiles or tanks. Its take-off weight varies between 31,000 and 40,000 pounds. SPAN: 51'0" LENGTH: 49'6" ENGINE: 2/Atar 101-D turbojet/6,600-lb. each. MAX. SPEED: 580 knots. RANGE: More than 1,000 nautical miles. ARMAMENT: Cannon, rockets, and missiles.
';. Jsk»» .»-'* FRANCE SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 32P-1200/5 AFM 50-40E
SUD-OUEST
FRANCE SUPPLEMENT NO. 5 JUNE 1954
SO-4050 VAUTOUR
FM 30-30 OPNAV 38P-1200/5 AFM 50-40E
FRANCE
MD 452 MYSTERE
The Dassault Mystere IV is the latest produc tion version of this French designed, single-seat, low-wing interceptor or ground attack fighter aircraft. Except for the tail configuration, the overall shape of the Mystere resembles the F-100. Recognition features include 40 degree thin swept wings, sweptback tail surfaces with the horizontal stabilizer located low on the vertical fin, and a fuselage nose section with a squashed shape some what like a whistle mouthpiece. SPAN: 36'6" LENGTH: 43'lll/2" MAXIMUM SPEED: Over 650 knots ENGINE: 1/Snecma-Atar 101-G/10,000 Ibs. thrust/Afterburner SERVICE CEILING: Approximately 56,000 ft. ARMAMENT: 2x30mm. cannon; rockets
FRANCE SUPPLEMENT NO. 6 DECEMBER 1956
IV
DASSAULT SINGLE-JET FIGHTERINTERCEPTOR
FM 30-30 OPNAV 32P-1200/6 AFM 50-40G
CARAVELLE
FRANCE
SE 210
The Caravelle is a low-wing monoplane designed as a medium-range airliner. Its fuselage is circu lar and tapers gradually and smoothly to the tail cone, which extends beyond the rudder. Wings are mounted slightly ahead of the fuselage mid-point and have considerable sweep back. The tail unit is of the cantilever type, more sharply swept back than the wings. Power is furnished by two turbojets mounted on the rear fuselage. SPAN: 112'6" LENGTH: 103'4" ENGINE : 2/Rolls-Royce Avon R.A. 16 MAXIMUM SPEED: 478MPH/38.700 ft. with 66,000 Ib payload RANGE: 2,670 miles with 20,900 Ib. payload
FRANCE SUPPLEMENT NO. DECEMBER 1956
SUD-EST TWIN-JET TRANSPORT
FM 30-30 OPNAV 32P-I200/6 AFM 50-40G •fr U. S. GOVERNMENT PRINTING OFFICE: 1957
O—42999?
MARCEL DASSAULT
M.D. 315 FLAMANT
The M. D. 315 Flamant is a light twin-engined general purpose transport designed for service mainly in territories of the French Union. Two variants of the M. D. 315 have been ordered by the French Air Force. The M. D. 311 is equipped as a trainer for bombing, navigation and photography, while the M. D. 312 is furnished as a six passenger military liaison transport. Except for minor changes necessary for their military role, these two aircraft have identical recognition features as the M. D. 315. The Flamarit is suitable for various uses including ambulance aircraft with four stretchers, doctor and assistant; military communications aircraft, 8 passen gers; bomber and navigational trainer; civil feeder transport, 10 passengers. Its weight loaded is 12,700 pounds. LENGTH: 41'0" SPAN: 67'10" ENGINE: 2/RenauIt 12S, inverted V/580 h. p. each. MAX SPEED: 200 knots. RANGE: 650 nautical miles/150 knots. ARMAMENT: 2 x 12.7 mm in nose; wing bomb racks.
.1 SUPPLEMENT NO. 4 JUNE 1953
FM 30-30
OPNAV 32P-1200/4 AFM 50-40D
MARCEL DASSAULT
FRANCE SUPPLEMENT NO. 4 JUNE 1953
M.D. 315 FLAMANT
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
SUD-OUEST
S.O. 30 BRETAGNE
The S. 0. 30 Bretagne is a twin-engined transport designed during the war in unoccupied France. While being test flown, the first prototype was defected to North Africa. Twin fins and rudders are featured; however, earlier prototypes were fitted with single fins and rudders. The S. 0. 30C used by the French Air Force is a cargo version of the S. 0. 30P slightly modified with large doors under the rear fuselage. More than 40 passengers can be carried in either version. The S. 0. 30P is in service with French airlines. A number of different engines have been tried in the Bretagne, including the French SNECMA 14R206 and the None jet engine. The fuselage of the 30P is pressurized. A tricycle landgear is fitted. When loaded, the Bretagne weighs 43,000 pounds. LENGTH: 62'2" SPAN: 88'2" p. each. h. R-2800/2,400 2/P&W ENGINE: ft. knots/1,000 250 MAX. SPEED: RANGE: 1,375 nautical miles/225 knots. ARMAMENT: None.
FRANCE SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
SUD-OUEST
FRANCE SUPPLEMENT NO. 4 JUNE 1953
S.O. 30 BRETAGNE
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORD
NORD 1400 NOROIT
The Nord 1400 Noroit is a Navy twin-engined search and rescue patrol amphibian. Its two-step hull lias accommodations for a crew of seven and is of all-metal construction. Mounted high on the hull is a trapezoidal gull wing with fixed strut floats. From a head on view, the Noroit resembles the PBM Mariner. A noticeable difference, however, is the Noroit's triple fins and rudders and its shallow hull. The Noroit was designed to replace the German Dornier Do. 24 seaplane. Five prototypes were produced and they are outwardly identical and differ only in the type of equipment tested for the final aircraft. After extensive testing with various type engines, it was decided to equip all Nord 1400 air craft with French engines. The various Noroits are designated 1401, 1402, etc. SPAN: 103'8" LENGTH: 72'3" ENGINE: 2/Arsenal 12H, radial/2,070 h. p. each. MAX SPEED: 208 knots/8,700 ft. RANGE: 1,620 nautical miles/110 knots. ARMAMENT: 4 x 20 mm, nose and tail; 6 bombs or depth charges.
FRANCE SUPPLEMENT NO. 4 JUNE 1953
FM 30-30 OPNAV 32P-1200/4 AFM 50-40D
NORD
FRANCE SUPPLEMENT NO. 4 JUNE 1953
Security Information
NORD 1400 NOROIT
FM 30-30
SecuritylnWWnation
OPNAV 32P-1200/4 AFM 50-40D
NORD 2501 NORATLAS
NORD
.0-
FRANCE SUPPLEMENT NO. 5 JUNE 1954
The Nord 2501 Noratlas is a high-wing twin-boom twin-engined transport which resembles the U. S. Packet. Both military and civil versions of the Noratlas are being produced. As a civil aircraft it can carry 40 passengers or it can be used as a mixed transport to carry passengers and freight. The rear end of the fuselage is split vertically and hinged to open to full cross-section of the hold for direct loading. For loading heavy cargo, a two-ton winch can be attached. Its fuselage and wings are of all metal construction as are the two interchangeable tail booms. In some of the later models thermal anti-icing combustion heaters are located on the wing-tips and the center-line of the leading edge of the stabilizer. " A retractable landing gear is fitted with the main gear attached to the engine nacelles. Fully loaded the Noratlas weighs 43,000 pounds. LENGTH: 72'0" SPAN: 106'6" ENGINE: 2/Bristol Hercules, radial/2,000 h. p. each. MAX. SPEED: 215 knots. RANGE: 1,200 nautical miles. ARMAMENT: None.
FM 30-30 OPNAV 32P-1800/5 AFM 50-40E
NORD
NORD 2501 NORATLAS
V
FRANCE SUPPLEMENT NO. 5 JUNE 1954
FM 30-30 OPNAV 3SP-1200/5 AFM 50-40E U.S. GOVERNMENT PRINTING OFFICE : 1954 O - 305799
MISCELLANEOUS AIRFORCES
MISC
MISCELLANEOUS AIR FORCES Type
AFGHANISTAN
Transport —
Continued
(The Kingdom of Afghanistan)
The K. A. A. F. is an integral part of the Army under the administration of the Ministry of War. The Commandant of the Air Force is responsible to the Ministry of War. Equipment
Light Bomber Attack Trainer
Designation Avro Anson Hawker Hind
Tiger Moth FT- 17
Manufacturer A. V. Roe Hawker
de Havilland Stearman
Trainer
Country
G.B. G.B. G.B. U.S.A.
ARGENTINA
copy) Prentice
Miscellaneous
Equipment
Medium Bomber Light Bomber
Attack Fighter
Reconnaissance Transport
Designation
Lincoln
Calquin I. Ae.
Alanufacturer
A. V. Roe I. Ae.
24 Lancaster Martin 139 (B-10) A-17 G. 46 Curtiss 75 G. 55 Meteor D. L. 22
Fiat Curtiss Fiat Gloster I. Ae.
Consul Ju. 52
Junkers
Ju. 43
Junkers
Viking Lancastrian
Vickers
SUPPLEMENT NO. 3 JUNE 1952
A. V. Roe Martin Northrop
Airspeed
A. V. Roe
*I. Ae. 27
Pulque I.
I. Ae. 33 Pulque II I. Ae. 30 Kancu
The Argentine Air Force
A Ministerio of Aeronautics was formed in Jan uary 1945, to coordinate and administer all matters concerning Military and Civil Aviation with the ex ception of Naval Aviation, which continues under the control of the Ministry of Marine. The Command of the Argentine Air Force (Fureza Aerea Argentina) is subordinate to the Secretariat of Aeronautics.
Skytrain C-47 /R4D Skymaster C-54 /R5D Dove I. Ae 24 Fw. 44 G. 46 Kansas T-ll/ SNB-1 BT-9 D. L. 22 (T-6
(The Argentine Republic)
Type
Lockheed 10 Lockheed 12
Wayfarer
The Royal Afghan Air Force
Type
Designation
Manufacturer
Lockheed Lockheed Bristol
Country U.S.A. U.S.A.
G.B.
Douglas
U.S.A.
Douglas de Havilland I. Ae Focke-Wulf Fiat
U.S.A. G.B. Argentina German}'
Beechcraft
U.S.A. U.S.A.
I. Ae. Percival
Argentina G.B.
I. Ae.
Argentina
I. Ae.
Argentina
I. Ae.
Argentina
North Ameri can
Italy
•The Pulciue (Arrow) is the first jet-propelled airplane to be designed, built, and flown in Latin America. The Pulque II is a swept-wing jet. Both jets are test aircraft.
The Naval Air Force
Argentine Naval Aviation is an integral part of the Navy. It is administered by the Director-General of Naval Aviation, at the Ministry of Marine, Buenos Ahes.
Country
G.B. Argen tina G.B.
U.S.A. U.S.A. Italy U.S.A. Italv G.B. Argen tina G.B. Ger man y Ger many G.B. G.B.
Equipment Type
Designation
Manufacturer
Country
Light Bomber
SBU-1 Martin 139
Chance Vought
U.S.A.
Martin
Reconnaissance
Duck J2F-5 Widgeon J4F/ OA-12 Goose JRF/ OA-13 Walrus Catalina PBY5,5A/OA-10 DC-2 Skytrain C-47/R4D Skymaster C-54/R5D
Grumman
U.S.A. U.S.A.
Grumman
U.S.A.
Grumman Vickers
U.S.A. G.B.
Convair Douglas
U.S.A. U.S.A.
Douglas
U.S.A.
Douglas
U.S.A.
(B-10)
Transport
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Securfy^fformafion
BOLIVIA
The Argentine Naval Air Force—Continued Manufacturer
Type
Designation
Transport— Continued Trainer
Curtiss Condor Lockheed Electra Kaydet T-13/ Stearin an N2S Pocke-Wulf Fw. 44 Valiant BT— 13/
Helicopter
SNV Texan T-6/ SNJ Kansas T-l I/ SNB-1 S-51 (HO3S/ H-5)
Country
(The Bolivian Republic)
U.S.A.
U.S.A.
The Bolivian Air Force
U.S.A. Germany
The Bolivian Air Force is an integral part of the Army.
Convair North Ameri can
U.S.A.
Beechcraft
U.S.A.
Sikorsky
U.S.A.
U.S.A.
Equipment
Type Reconnaissance
Transport
Trainer
BELGIUM (The Kingdom of Belgium) The Belgian Air Force
The Belgian Air Force functions as an independ ent service and is administered by the Ministry of Defense with headquarters in Brussels. The Chief of Staff of the Belgian Air Force is responsible to the Minister of Defense.
Fighter
Transport
Trainer
Liaison
Manufacturer Designation Mosquito Mk.
30 Spitfire Mk. 14 Thunderjet F-84E Meteor Mks. 4,8 Skytrain C-47/ R4D Skymaster C-54/R5D Packet C-119 Texan T-6/
SUPPLEMENT NO. 3 JUNE 1952
Country
de Havilland
G.B.
Vickers
G.B.
Republic
U.S.A.
Gloster
U.S.A.
Douglas
U.S.A.
Douglas Fairchild North Ameri can SNJ Tiger Moth de Havilland Mosquito Mk. 3 de Havilland Spitfire Mk. 9 Vickers Meteor Mk. 7 Gloster Shooting Star T-33/TV-2 Lockheed Stampe Stampe Chipmunk de Havilland Anson A. V. Roe Auster Auster Dominie de Havilland Oxford Airspeed Proctor Percival Magister Miles Martinet Miles
Manufacturer
Country
OA-9 Skytrain C-47 /R4D Voyager C-45 /JRB Kaydet T-17/ N2S Valiant BT-13/SNV Texan T-6/ SNJ Navigator T-7/ SNB-2 Kansas T-l I/ SNB-1
Grumman
U.S.A.
Douglas
U.S.A.
Beeehcraft
U.S.A.
Boeing
U.S.A.
Convair U.S.A. North American U.S.A. Beechcraft
U.S.A.
Beechcraft
U.S.A.
BRAZIL (The United States of Brazil) The Brazilian Air Force
Equipment
Type Attack
Designation Goose JBF/
U.S.A. U.S.A. U.S.A. G.B. G.B. G.B. G.B. U.S.A. France Canada G.B. G.B. G.B. G.B. G.B. G.B. G.B.
The Brazilian Air Force is known as the Forceas Aereas Brasileiras (F. A. B.) and is independent of both Army and Navy. It is controlled by the Air Ministry and was created by a Presidential Decree dated January 20, 1941. The Air Minister has head quarters at Rio de Janeiro. The Brazilian Air Force is the largest in South America. It is considered superior to all other Latin American air forces, with the possible exception of that of Argentina. After Brazil declared war on Germany in January 1944, a group of fighter pilots and ground personnel underwent advanced operational training in the U. S. prior to proceeding overseas as the First Brazilian Fighter Squadron to serve with the U. S. Air Forces. Equipment
Type Light Bomber
Attack
Fighter
Designation Ventura B-34/
Manufacturer
Country
PV-1 Mitchell B-25J/ PBJ Texan T-6/SNJ
Lockheed North American North Ameri can
U.S.A.
Douglas
U.S.A.
Lockheed
U.S.A.
Republic
U.S.A.
Havoc A-20K/ BD Hudson A-28/ PBO1 Thunderbolt F-47
U.S.A. U.S.A.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Equipment
The Brazilian Air Force—Continued Type
Designation
FighterContinued Reconnais sance
Warhawk F-40E Catalina PBY-5, 5A/ OA-10 Skytrain C-47/R4D Voyager C-45/JRB Lodestar C-60/R5O C-40 Commando C-46/R5C Traveler G-43/GB UC-61A Norseman C-64/JA U-24 Widgeon J-4F/ OA-14 Lockheed 12A Bobcat UC-78/ JRC-1 UC-80 Texan T-6/ SNJ Navigator T-7/SNB-2 Cornell T-19 Valiant T-15/ SNV Kansas T-ll/ SNB-1
Transport
Trainer
Manufacturer
Country
Curtiss
U.S.A.
Consolidated
U.S.A.
Douglas
U.S.A.
Beechcraft
U.S.A.
Lockheed Lockheed
U.S.A. U.S.A.
Curtiss
U.S.A.
Beechcraft Fairchild
U.S.A. U.S.A.
Noorduyn Fairchild
Canada U.S.A.
Grumman Lockheed
U.S.A. U.S.A.
Cessna Harlow North Ameri can
U.S.A. U.S.A.
Beechcraft Fairchild
U.S.A. U.S.A.
Vultee
U.S.A.
Beechcraft
U.S.A.
Designation
Manufacturer
Country
Pe-2 Tu-2 Stormovik 11-2, -10 Yak-9 Type 28 (jet) MIG-15
Petlyakov Tupolev
U.S.S.R. U.S.S.R.
Ilyushin Yakovlev Yakovlev Mikoyan & Gurevich Junkers Lisitsin Focke-Wulf Polikarpov Fieseler
U.S.S.R. U.S.S.R. U.S.S.R.
Attack Fighter
Ju. 52 Li-2 Fw. 5\ Po-2 Storch Fi. 156
Transport Trainer Liaison
A
U.S.S.R. Germany U.S.S.R. Germany U.S.S.R. Germany
BURMA (The Republic of the Union of Burma) The Burmese Air Force The Burmese Air Force is being trained by an R. A. F. mission. While in theory the B. A. F. is on the same level with the Army and Navy it is actually subordinate to the Army, because the Supreme Commander of the armed forces is also the com manding general of the Army.
U.S.A.
BULGARIA 1^ •
Type
Light Bomber
Equipment Type
Designation
Manufacturer
Country
Light Bomber Fighter Reconnais sance Transport
Oxford Spitfire Mk. 18
Airspeed Vickers
G.B. G.B.
Auster Dakota C-47/R4D Consul Tiger Moth
Auster
G.B.
Douglas Airspeed deHavilland
U.S.A. G.B. G.B.
Training
CHILE
(Peoples Republic or Bulgaria)
(The Chilean Republic)
The Bulgarian Air Force
The Chilean Air Force
Under the Peace Treaty of 1947 Bulgaria was permitted to maintain an Air Force comprising 90 aircraft, of which not more than 70 were to be com bat types, and a personnel strength of 5,200 officers and other ranks. The peace terms further specify that Bulgaria would not maintain any bombing air craft or make experiments with or construct remotecontrol piloted or pilotless aerial weapons. Bulgaria is, however, a satellite of the Soviet Union and its air force is patterned after the S. A. F. The B. A. F. is a component of the Bulgarian Army and is being equipped to suit the Soviets. The above information, therefore, is academic.
The Chilean Air Force is called the Fuerza Aerea de Chile and is administered by the Ministry of Defense. The Commander in Chief of the Air Force is directly responsible to the Ministry.
SUPPLEMENT NO. 3 JUNE 1952
Equipment
Type Light Bomber
Attack Fighter Reconnaissance
Designation Mitchell B-25/
PBJ Dauntless SBD/ A-24 Thunderbolt F-47 Kingfisher OS2U Catalina PBY-5, -5A/OA-10
Manufacturer North Ameri-
Country
can
U.S.A.
Douglas
U.S.A.
Republic
U.S.A.
Convair
U.S.A.
Convair
U.S.A.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
The Chilean Air Force—Continued Type Transport
Designation Kansas T-ll/
SNB-1 Skytrain C-47/ R4D Voyager C-45/ JRB Valiant BT-13/SNV Texan T-6/SNJ
Trainer
Yellow Peril N3N Cornell T-19
Manufacturer
Country
Beechcraft
U.S.A.
Douglas
U.S.A.
Beechcraft
U.S.A.
Convair North Ameri can U. S. N. A/C Factory Fairchild
U.S.A.
Armed Forces in Taiwan is vested in the Ministry of National Defense which was established in place of the former National Military Council on 1 June 1946. In organization the Chinese Air Force is similar to the U. S. A. F. Equipment
Type
Designation
Manufacturer
Light Bomber
Liberator B-24/ PB4Y-1 Mitchell B-25/PBJ Mosquito Mustang F-51
North Ameri can North Ameri can de Havilland North Ameri can
U.S.A. U.S.A. U.S.A.
CHINA—COMMUNIST AND NORTH KOREA (The Chinese Communist and North Korea) The Chinese Communist and North Korean Air Forces
The air forces of Communist China and North Korea are grouped together as a single Air Force, because of the unified control believed to be exer cised over these air forces by the Soviet Air Force. In keeping with the Soviet trend the organization of the air forces is similar to the S. A. F. The C. C. A. F. is on the same plane with the Army and the Navy. These forces are responsible to the supreme military command of the People's Liberation Army Headquarters.
Fighter
Reconnais sance Transport
Trainer
Miscella neous
Equipment
Tape
Designation
Light Bomber
Attack Fighter
Transport
Tu-2
n-2, -io
Po-2 MIG-9, -15 Yak-15 Type 16 (jet) Yak-7B,-9 La-9, -11 Li-2 11-12 Commando C-46/R5C
Manufacturer
Country
Tupolev Ilyushin Polikarpov Mikoyan & Gurevich Yakovlev Yakovlev Yakovlev Lavochkin Lisitsin Ilyushin
U.S.S.R. U.S.S.R. U.S.S.R.
Curtiss
U.S.A.
Skytrain Training
C-47/R4D Douglas Type 26 (jet) Yakovlev Yak-11,-12,-18 Yakovlev
U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R.
U.S.A. U.S.S.R. U.S.S.R.
Thunderbolt F-47 Republic Warhawk F-40 Curtiss North Ameri Mitchell B-25/PBJ can Lightning R-5/F-38 Lockheed Skytrain C-47/ R4D Douglas Commando Curtiss C-46/R5C Skymaster C-54/R5D Douglas KaydetT-13, -17/N2S Boeing Cornell T-19 Fairchild Texan T-6/SNJ North Ameri can Liberator Ex Convair press C-87 Sentinel L-5/OY Convair Skymaster C-54/ R5D Douglas
Country
U.S.A. U.S.A. G.B. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
COLOMBIA (The Republic of Colombia) The Colombian Air Force
The Colombian Air Force, known as the Fuerza Aerea Colombiana, is an integral part of the Army, administered by the Ministry of War. It operates under the command of the Colombian General Staff which is controlled by Army officers. Headquarters are at Bogota. Equipment
CHINA—NATIONALIST (The Chinese Nationalist) The Chinese Air Force
The Chinese Nationalist Air Force is an independ ent force and is not an integral part of the Chinese Nationalist Army. Control of the Nationalist SUPPLEMENT NO. 3 JUNE 1952
Type Light
Bomber Fighter
Designation Mitchell
B-25D/PBJ Thunderbolt F-47D Reconnais- Catalina PBYsance 5A/OA-10 Grasshopper L-4
Manufacturer North Amer-
Country
ican
U.S.A.
Republic
U.S.A.
Convair
U.S.A.
Piper
U.S.A.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
The Colombian Air Force — Continued Type
Designation
Transport
Skytrain
Trainer
C-47A/R4D Lodestar C-60A/R5O Ju. 52 Texan T-6/SNJ
Country
Type
Designation
Manufacturer
Douglas
U.S.A.
Reconnais sance
Kingfisher
Chance
Lockheed Junkers North Amer ican
U.S.A. Germany
Transport
Manufacturer
Vultee (P)T-ll Cornell T-19 Kaydet T-17/N2S Valiant (B)T-15/SNV Navigator T-7/SNB-2 Kansas T-ll/SNB-1
Equipment
Trainer
OS2U-3 Seagull S03C Goose JRF/OA-9,-13 Yellow Peril N3N-1 Valiant (B)T-13/SNV
Vought Curtiss
U.S.A. U.S.A.
Grumman U.S.N.A/C Factory
U.S.A. U.S.A.
Convair
U.S.A.
Fairchild
U.S.A. U.S.A. U.S.A.
Stearman
U.S.A.
Convair
U.S.A.
CZECHOSLOVAKIA
Beechcraft
U.S.A.
(The Czechoslovak Republic)
Beechcraft
U.S.A.
Convair
CUBA (The Republic of Cuba) The Cuban Army Air Corps
The Cuban Army Air Corps, known as the Cuerpo de Aviacion, is a small corps operating directly under the Army Chief of Staff as an integral part of the Army. Headquarters are at Havana.
The Czech<
The Czech Air Force is subordinate to the Army. It is administered by the Ministry of National Defense through the Army. Since 1948 the country has been under the Soviet sphere of influence and the C. A. F. ha°s gradually become a small model of the S. A. F. Equipment
Type
Designation
Manufacturer
Country
Light '
Mosquito
de Havilland Petlyakov Ilyushin Messerschmitt Lavochkin Mikoyan & Gurevich Yakovlev Messerschmitt Siebel Fieseler
G.B. U.S.S.R. U.S.S.R.
Bomber Attack Fighter
Equipment
Pe-2 11-2, -10 C.10, C.210 (Me. 109) La-5, -7 MIG-15
Type
Designation
Manufacturer
Country
Light
Mitchell B-25/PBJ Lightning F-38
North Amer ican Lockheed
U.S.A. U.S.A.
Republic
U.S.A.
Aeronca Cessna
Convair
U.S.A. U.S.A. U.S.A.
Beechcraft
U.S.A.
Douglas Beechcraft Lockheed
U.S.A. U.S.A. U.S.A.
Beechcraft
U.S.A.
Stearman
U.S.A.
Convair North Amer ican
U.S.A. U.S.A.
DENMARK
Beechcraft
U.S.A.
(The Kingdom of Denmark)
Bomber Fighter
Thunderbolt
Reconnais sance Transport
F-47 Catalina PBY5A/OA-10 L-3B Cessna
Voyager
C-45/JRB Skytrain
Trainer
C-47/R4D Bonanza Lodestar Kansas T-ll/SNB-1 Kaydet T-13, -17/N2S Valiant (B)T-13/SNV Texan T-6/SNJ Navigator T-7/SNB-2
Country
Type 16 (jet) Me. 262 (jet) Reconnais sance Transport
Trainer
Si. 204 Storch Fi. 156
Czech. U.S.S.R. U.S.S.R. U.S.S.R. Germany Germany Germany
Skytrain
C-47/R4D Ju. 52 11-12 Aero 45 Arado 96 ' Storch Fi., 156
Biicker Bii. 131 Me. 109G Type 26 (jet) Type 29 (jet)
Douglas Junkers
U.S.A. Germany
Bestman
Germany Germany Germany
Ilyushin Aero Arado Fieseler Messerschmitt Yakovlev Mikoyan & Gurevich
U.S.S.R. Czech.
Germany
U.S.S.R. U.S.S.R.
The Cuban Naval Air Arm
The Royal Danish Air Force
The Cuban Naval Air Arm is quite small, and practically inactive.
The Danish Defense Law of 27 May 1950 estab lished a separate and independent Air Force. On 1
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
The Royal Danish Air Force—Continued
October 1950 former Army and Navy Air Forces were consolidated and the Eoyal Danish Air Force (Flyvevabnet) came into being.
Type
Designation
Manufacturer
Country
Trainer— Continued
Cub Beaver L-17 Navion Cessna 190 Hiller 360
Piper de Havilland Ryan Cessna Hiller
U.S.A. G.B. U.S.A. U.S.A. U.S.A.
Helicopter
Equipment
Type
Designation
Manufacturer
Country
Fighter
Meteor Mks. 4, 8 Thunderjet F-84 Spitfire Mk. 9 Catalina PBY-5A/OA-10 Fortress B-17G/PB-1 Spitfire Mk. 11 Sea Otter Texan T-6/SNJ
Gloster Republic Vickers
G.B. U.S.A. U.S.A.
Convair
U.S.A.
Reconnais sance
Boeing Vickers Vickers North Ameri can Airspeed Oxford KZ-1,-2,-3,-7,-10 Skandinovisk Aero Ind. Percival Procter Gloster Meteor Mk. 7
Trainer
U.S.A. G.B. G.B. U.S.A. G.B. Den mark G.B. G.B.
ECUADOR (The Republic of El Ecuador)
The Ecuac n Air Force mi ~c\^ Ihe Ecuadoran -rLc The Air Force is autonomous under the Minister efense. It has equal status with the Army and an Navy and is administered by a Com mandant the Military Aviation. The Comman dant of the t Air Force has headquarters at Quito. Equipment
Type
Fighter Transport Trainer
DOMINICAN REPUBLIC (Ciudad Trujillo—Dominican Republic) The Dominican Air Force
The Dominican Air Force, known as El Cuerpo de Aviacion Militar, is an autonomous force. It is administered by the Secretary for War, Marine and Aviation and is of great personal interest to the President. Equipment Type
designation
Manufacturer
Country
Light Bomber
Fortress B-17/PB Mitchell B-25
Boeing North Amercan de Havilland Lockheed North Ameri can Bristol
U.S.A.
Convair Republic
U.S.A. U.S.A.
Curtiss
U.S.A.
Beechcraft Cessna North Ameri can
U.S.A. U.S.A.
Convair
U.S.A.
Stearman
U.S.A.
Beechcraft Stinson
U.S.A. U.S.A.
Fighter
Reconnais sance Transport
Trainer
Mosquito Lightning F-38 Mustang F-51 Beaufighter Cataina PBY5A/OA-10 Seabee Commando C-46/ R5C Voyager C-45/ JRB Bobcat C-78/JRC Texan T-6/SNJ Valiant (B)T-13/ SNV Kaydet T-17/ N2S Kansas T-ll/ SNB-1 Station Wagon
SUPPLEMENT NO. 3 JUNE 1952
U.S.A. G.B. U.S.A. U.S.A. G.B.
U.S.A.
Designation Manufacturer Thunderbolt F-47 Republic Skytrain C-47/ R4D Douglas Cornell T-19 Fairchild Valiant (B)T-13/ SNV Convair Texan T-6/SNJ North Ameri can Navigator T-7/ SNB-2 Beechcraft
Country U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
EGYPT (The Kingdom of Egypt) The Royal Egyptian Air Force The E. E. A. F., under the Ministry of War and Marine is an independent arm of the Armed Forces with headquarters in Cairo. The Director of the Air Force is directly re sponsible to the Minister of War and Marine. equipment Type
Designation
Manufacturer
Country
Light Bomber
Halifax Lancaster Spitfire Mks. 9, 22 Vampire Mks. 5, 6 Meteor Mk. 4 Fury Macchi 202/205 Fiat G. 55 *Anson Voyager C-45/JRB *Commando C-46/ R4C *Skytrain C-47/ R4D Mallard *Oxford
Handley Paige A. V. Roe Vickers de Havilland Gloster Hawker Macchi Fiat A. V. Roe Beechcraft
G.B. G.B. G.B. G.B. G.B. G.B. Italy Italy G.B. U.S.A.
Curtiss
U.S.A.
Douglas Grumman Air Speed
U.S.A. U.S.A. G.B.
Fighter
Transport
*Many of these aircraft have been converted for use as light bombers. FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Security Information
The Royal Egyptian Air Force—Continued Type Manufacturer Designation Transport— Beechcraft Bonanza Miles Magister Continued de Havilland Dove Trainer Valiant (B)T-13/ Convair SNV North Ameri Texan T-6/SNJ can Sokol Sokol de Havilland Chipmunk Helicopter Westland S-51 (Sikorsky)
FINLAND Country
U.S.A. G.B. G.B. U.S.A. U.S.A. Czech. G.B. G.B.
EL SALVADOR (The Republic of El Salvador)
(The Finnish Republic) The Finnish Air Force
The Finnish Air Force under the Peace Treaty is limited to 60 aircraft and a personnel strength of 3,000 officers and men. The Treaty, further for bids Finland from maintaining a bombing force and the engagement in experiments with or construction of remote control piloted or pilotless aerial weapons. The F. A. F., a component of the Finnish Defense Forces, is on the same level as the artillery, infantry, quartermaster and naval forces.
The El Salvadoran Air Force
The El Salvadoran Air Force is a part of the Army, operating under the Chief of the Armed Forces (the President) through the Minister of Defense. Headquarters are located at Ilopango Airport.
Equipment Designation
Manufacturer
Me. 109G-6 DC-2
Messerschmitt Germany U.S.A. Douglas
Fokker CXBK Storch Fi. 156 Pyry Tuisku Viima Stieglitz Fw. 44 Anson Blenheim
Fokker Fieseler Valmet Valmet Valmet Focke-Wulf A. V. Roe Bristol
Equipment Type
Designation
Transport
Skytrain C-47/R4D Kansas T-ll/ SNB-2 Texan T-6/SNJ
Trainer
Valiant (B)T-13/ SNV
Manufacturer
Country
Douglas
U.S.A.
Beechcraft North American
U.S.A.
Convair
U.S.A.
FRANCE (The French Republic)
(The Kingdom of Abyssinia)
The French Air Force
Sweden G.B.
Service aviation in France, is divided between the Air Force, Armee de 1'Air, and the Naval Air Arm, Aeronavale. The nominal Commander in Chief of the Armed Forces is the President of the Republic. He pre sides over two advisory bodies, the Supreme Na tional Defense Council and the National Defense Committee. Under the Ministry of the Armed Forces are three Under-Secretaries of State, Army, Air, and Navy. Also reporting to the Minister are the Chiefs of Staff Committee and the Inspector-General of the Armed Forces.
Sweden
The Air Force
U.S.A. U.S.A. U.S.A.
The Chief of the Air Staff and Commander in Chief of the Air Force is a General, who is also Chairman of the Chief of Staff Committee.
The Imperial Ethiopian Air Force
The Imperial Ethiopian Air Force is being organ ized from a small nucleus consisting mainly of com munications and transport aircraft and a number of aircraft supplied by Sweden. The instructors and technicians are Swedish. They are commanded by a Swedish Air Force Officer. Equipment Type
Designation
Manufacturer
Country
Bomber
Firefly Saab-17
G.B.
Transport Trainer
Avro-19 Safirs Saab-91
Fairey Svenska Aeroplan A. B. A. V. Roe Svenska Aeroplan A. B. Cessna Convair Beechcraft
SUPPLEMENT NO. 3 JUNE 1952
Germany Germany Finland Finland Finland Germany G.B. G.B.
U.S.A.
ETHIOPIA
Bobcat UC-78/ JRC Sentinel L-4/OY Bonanza
Country
Type
Fighter Transport Reconnais sance Training
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Security Information
Type Trainer—
The French Air Force — Continued Equipment
Continued Country
Type
Designation
Manufacturer
Light Bomber
Halifax Mk. 6 Invader B-26/JD Thunderbolt F-47N Spitfire Mk. 9 Hellcat F6F Bearcat F8F Mosquito Mk. 30 Ouragon M.D. 450 Mvstere M.D. 452 Vampire Mk. 53 Vampire Mk. 5 Thunderjet F-84 Mustang F-51
Handler Page G.B.
Fighter
Reconnais sance Transport
Liaison
Lightning F-38 Skytrain C-47/R4D Skvniaster C-54/R5D Ju. 52 Bretagne S.O. SOP Marauder ZB-26B/JM Martinet
Douglas
U.S.A.
Republic Vickers Grumman Grumman
U.S.A. G.B. U.S.A. U.S.A.
de Havilland
G.B.
Dassault
France
Dassault S.N.C.A.S.E. de Ha.villand
France France G.B.
Republic North American Lockheed
U.S.A. U.S.A. U.S.A.
Douglas
U.S.A.
Douglas Junkers
U.S.A. Germany
Sud-Ouest
France
Martin Miles
U.S.A. G.B.
Voyager
C-45/JRB Goeland LeO 45 Maryland M-167 Pingouin Nord 1002 Rainier Nord 1100
Beechcraft S.N.C.A.N. S.N.C.A.S.E.
U.S.A. France France
Martin .
U.S.A.
S.N.C.A.N.
France
S.N.C.A.N.
France
Piper
U.S.A.
Dassault Dassault Dassault de Havilland S.N.C.A.N.
France France France G.B. France
Douglas
U.S.A.
Grasshopper
Trainer
L-4/NE Flamant M. D. 315 M.D. 472 M.D. 230 Tiger Moth Stampe SV-4 Dauntless SBD/A-24 S.I.P.A. S-10, -11 Bobcat C-78/JR.C Wellington Mk. 10 Anson Shooting Star T-33/TV-2
SUPPLEMENT NO. 3 JUNE 1952
Designation Vampire Mk. 1
Airacobra F-39 Texan T-6/SNJ
Manufacturer de Havilland
Bell North American
Country G. B.
U. S. A. U. S. A.
Naval Aviation The French Naval Air Arm is administered by the Ministry \j of Marine,} but certain units for opera1 tional purposes come under the control of the Air Force. The officer commanding the Naval Air Arm is a Rear Admiral. The Naval Air Arm operates three aircraft-car riers: Arromanches (H. M. S. Colossus), which is on loan from the Royal Navy; a light fleet carrier Lafayette (formerly Langley CVL-27); and a light escort-carrier Dixmude (formerly H. M. S. Biter). The old French aircraft-carrier Beam is now classified as an aircraft transport. Equipment Type
Designation
Patrol Bomber Lancaster Wellington Sunderland Privs/tcGr PB4Y-2 Attack Bomber Helldiver SB2C/A-25 Avenger TBM3E
Fighter
Hellcat F6F-5, 51ST Corsair F4U-7
Reconnaissance Catalina PBY' 5A/OA-10 Noroit 1400 Sea Otter Transport Skytrain C-47/ R4D
Country
G.B. G.B. G.B.
Convair
U.S.A.
Curtiss
U.S.A.
Martin
U.S.A.
Grumman Chance Vought
U.S.A. U.S.A.
Convair Nord Vickers
U.S.A. France G.B.
Douglas
U.S.A.
Junkers
Germany
Sud-Est Breguet S.N.C.A.N.
France France France
Sud-Ouest S. C. A. N.
France France
Beechcraft A. V. Roe MoraneSaulnier Seafire Mk. 3,15 Vickers
U.S.A. G.B.
Ju. 52
Trainer
Manufacturer
A. V. Roe Vickers Short
Languedoc S.E. 161. Breguet 731 Stampe S. V. 4 Corse II S.O. 95 S. C. A. N. 20 Voyager C-45/ JRB . Anson M. S. 474
France G.B.
GREECE S.I.P.A. Cessna
France U.S.A.
Vickers A. V. Roe
G.B. G.B.
Lockheed
U.S.A.
(The Kingdom of Greece — Hellas) The Royal Hellenic Air Force The R. H. A. F. functions as an independent service, and it is administered by the General Air Staff under the Minister of National Defense at Athens. FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Type Trainer
The Royal Hellenic Air Force—Continued Equipment
Attack Fighter Transport Liaison Trainer
Manufacturer
Country
A-25 Thunderjet F-84i Spitfire Mks. 4, 1 Skytrain C-47/ R4D Navion L-17B Auster Mk. 3 Texan T-6/SNJ
Curtiss Republic Vickers
U.S.A. U.S.A. G.B.
Douglas Ryan Auster North
U.S.A. U.S.A. G.B.
Tiger Moth Shooting Star T-33/TV-2
deHavilland
U.S.A. G.B.
Lockheed
U.S.A.
Designation Helldiver SB2C/
American
GUATEMALA (The Republic of Guatemala) The Guatemalan Army Air Force
The Air Force of Guatemala, the Fuerza Aerea de Guatemala, is administered by the Army Command. The Chief of Military Aviation has his headquarters at Guatemala City. Since World War II the Air Force has undergone modernization. mon. Manufacturer
Type
Designation
Fighter Transport
Boeing F-26/F4B4 Boeing
Trainer
Country U.S.A.
Skytrain C-47/
Cessna
U.S.A. U.S.A. U.S.A.
Convair
U.S.A.
Douglas Beechcraft
North American
Kansas T-ll/JRB Beechcraft Cornell T-19 Fairchild Waco Waco T-14 Kaydet T-17/N2S Boeing Ryan T-23 Ryan
U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
HAITI (The Republic of Haiti) The Haitian Air Force
The Haitian Air Force is an integral part of the Army. It is organized, more or less, as a Govern ment Air Line and is quite small. Equipment
Type
Designation
Manufacturer
Country
Fighter
Mustang F-51
North American Cessna
U.S.A.
Transport
Bobcat C-78/JRC Skytrain C-47/ R4D Douglas Voyager C-45/JRB Beechcraft
SUPPLEMENT NO. 3 JUNE 1952
U.S.A. U.S.A. U.S.A.
Country U.S.A.
SNV Texan T-6/SNJ
Convair North American
U.S.A.
Beechcraft Taylorcraft
U.S.A. U.S.A.
Kansas T-ll/ SNB-1 Taylorcraft L-28
U.S.A.
HONDURAS (The Republic of Honduras) The Honduran Air Force
The Honduran Air Arm is administered by the Department of War, Marine and Aviation. The Minister of War, Marine and Aviation has his headquarters at Tegucigalpa. The Chief of the Air Force enjoys a considerable measure of autonomy and though theoretically responsible to the Minister of War, reports directly to the President with headquarters at Tegucigalpa. Equipment
Type
Fighter
Equipment
R4D Voyager C-45/JRB Bobcat C-78/JRC Valiant (B)T-15/ SNV Texan T-6/SNJ
Liaison
Designation Manufacturer Cornell T-19A Fairchild Valiant (B)T-13A/
Transport Trainer
Designation Manufacturer Lightning F-38 Lockheed Kingcobra F-63 Bell Skytiain C-47/R4D Douglas Kaydet T13, 17/N2S Boeing Valiant (B) T-13/SNV Convair Texan T-6/SNJ North Ameri can Kansas T-ll/SNB-1 Beechcraft
Country
U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
HUNGARY (The Hungarian Republic)
The Hung* Under the terms of the Hungarian Peace Treaty the size of the Hungarian Air Force is limited to 90 aircraft, no more than 70 of which may be combat types; and a personnel strength of 5,000 officers and other ranks. The Treaty further forbids the main tenance of bombing aircraft and the engagement in experiments with or the construction of remote con trolled piloted or pilotless aerial weapons. The Hungarian Air Force, with the assistance of the U. S. S. R., is being reorganized and will probably develop along patterns similar to other satellite nations. Equipment
Type
Designation
Manufacturer
Country
Training
UT-2
Yakovlev
U.S.S.R.
Arado 96B Zlin 381
Arado Zlin
Germany Czech.
FM 30-30
OPNAV 32P-1200/3 AFM 50-40C
Equipment
IRELAND
Type Fighter
(Republic of Ireland) The Irish Air Force
Transport
The Irish Air Corps is a component of the Defense Forces and is administered by the Department of Defense, Parkgate, Dublin.
Liaison
Equipment
Type
Designation
Manufacturer
Country
Fighter Trainer
Seafire Mk. 3 Anson Magister Martinet Master
Vickers A. V. Roe Miles Miles Miles
G.B. G.B. G.B. G.B. G.B.
Designation
Manufacturer
Thunderbolt F-47 Republic Hawker Hurricane Mk. 2 Skytrain Douglas C-47/R4D North Ameri Texas T-6/SNJ can Valiant Convair (B)T-13/SNV Grasshopper L-4/NE Piper de Havilland Tiger Moth Hawker Audax Anson A. V. Roe Hind Hawker
Country
U.S.A. G.B.
U.S.A. U.S.A. U.S.A. U.S.A. G.B. G.B. G.B. G.B.
IRAQ
INDONESIA
(The Kingdom of Iraq)
(The Republic of Indonesia)
The Royal Iraqi Air Force
The Indonesian Air Force
The Air Force of Indonesia is known as the Udara Republik Indonesia. It was organized in December 1949 as an independent force reporting directly to the Ministry of Defense. The A. U. R. I., in addi tion to being trained by the Dutch, has student pilots in American and British aviation schools. Equipment
Country
The Royal Iraqi Air Force is administered by the Minister of Defense through the Army Chief of Staff. The R. I. A. F. was patterned after the R. A. F. as a result of a postwar reorganization. Headquarters are in Baghdad. Equipment
Type
Designation
Manufacturer
Qmmtry
Light Bomber Fighter
Anson Mks. 1, 12 Sea Fury Gladiator Tiger Moth Audax
A. V. Roe Vickers Gloster de Havilland Hawker de Havilland Miles
G.B. G.B. G.B. G.B. G.B. G.B. G.B.
Type
Designation
Manufacturer
Light Bomber
Mitchell B-25/PBJ Mustang F-51
North Ameri can North Ameri can Curtiss
U.S.A. U.S.A.
Convair
U.S.A.
Douglas
U.S.A.
Piper North Ameri can
U.S.A.
The Israeli Air Force
U.S.A.
Convair Auster Wackett Hiller
U.S.A. G.B. Australia U.S.A
The Israeli Air Force (Hel Avir L'lsrael) is coequal with the Army and Navy, all three comprising the Israeli Defense Forces, under the Ministry of Defense.
Fighter Reconnais sance Transport Trainer
Hellicopter
Warhawk F-40 Catalina PBY5A/OA-10 Skytrain G-47/ R4D Grasshopper L-4/NE Texan T-6/SNJ Valiant (B) T-13/SNV Auster Wackett Hiller 360
U.S.A.
Trainer Miscellaneous
(The State of Israel)
Equipment
Tape
Designation
Light Bomber
Fortress B-17/PB Hudson Mosquito Mustang F-51D, N Me. 109
Fighter
The Imperial Iranian Air Force
The Imperial of the Army. Department of General Staff. The Shah.
Iranian Air Force is an integral part It is administered by the Aviation the Ministry of War through the The I. I. A. F. is commanded by
SUPPLEMENT NO. 3 JUNE 1529
Magister
ISRAEL
IRAN (The Kingdom of Iran)
Dove
Transport
Spitfire Skytrain C-47/R4D Commando C-46/R4C
Manufacturer
Boeing Lockheed de Havilland North Ameri can Messerschmitt Vickers
Germany G.B.
Douglas
U.S.A.
Curtiss
U.S.A.
FM 30-30
Security Information
Country
U.S.A.
U.S.A. U.S.A.
U.S.A.
OPNAV 32P-1200/3 AFM 50-40C
KOREA (SOUTH)
The Israeli Air Force—Continued Type
Designation
Manufacturer
Country
Trainer
Texan T-6/SNJ Kaydet T-13/N2S Buckaroo T-35 Instructors. 11 Consul Anson Chipmunk Catalina PBY Widgeon J4F/OA-14 Bonanza Rapide Grasshopper L-4/NE
North Ameri can
U.S.A.
Stearman Temp co Fokker Airspeed A. V. Roe de Havilland Convair
U.S.A. U.S.A. Holland G.B. G.B. G.B. U.S.A.
Miscellaneous
Grumman Beechcraft de Havilland
U.S.A. U.S.A. G.B.
Piper
U.S.A.
(Republic of South Korea) The South Korean Air Force
The South Korean Air Force is an autonomous service under its own Chief of Staff for Air, who is responsible to the Minister of Defense. Equipment Manufacturer
Tape
Designation
Fighter
Mustang F-51
Reconnais sance
Grasshopper L-4/NE Sentinel L-5/OY Navion L-17 L-19 Skytrain C-47/R4D Texan T-6/SNJ
Transport Trainer
ITALY
Country
North Ameri can
U.S.A.
Piper Convair Ryan Cessna
U.S.A. U.S.A. U.S.A. U.S.A.
Douglas North Ameri can
U.S.A. U.S.A.
MEXICO
(The Republic of Italy)
(The United States of Mexico)
The Italian Air Force
The Mexican Air Force
The Italian Air Force is an autonomous organiza tion on the same plane as the Army and Navy. All three services report to the Chief of Staff of Defense and the Minister of Defense. An embryonic Naval Air Arm called "Marinavia" exists but it has no air craft of its own.
The Mexican Air Force is an integral part of the Army and is under the Secretary of National Defense with headquarters at Mexico City. The Mexican Air Force (Fuerza Aerea Mexicana) is commanded by the Director of Military Aviation. There is a small Naval Air Arm functioning as an integral part of the Navy.
Type
Designation
Manufacturer
Country
Fighters
Vampire Mk. 5 Thunderjet F-84 Thunderbolt F-47 Lightning F-38 M.B. 205 Helldiver S2C Harpoon PV-2 Airone C. Z. 506B Lightning F-4G, F-38 Voyager C-45/JRB Skytrain C-47/R4D Monterosa G. 212 G. 12 SM. 75, 79, & 82
de Havilland Republic
G.B. U.S.A.
Reconnais sance
Transport
Trainer
Republic Lockheed Macchi Curtiss Lockheed
U.S.A. U.S.A. Italy U.S.A. U.S.A.
Cantieri
Italy
Lockheed
U.S.A.
Beechcraft
U.S.A.
Douglas
U.S.A.
Fiat Fiat Siai-Marchetti Texan T-6/SNJ North Ameri can Sentinel L-5/OY Convair Fiat G. 46, & 59 S. A. I. S. A. I. 7 A. V. I. A. F. L. 3 Ca. 164 Caproni
SUPPLEMENT NO. 3 JUNE 1952
Equipment Type
Designation
Attacker
Dauntless SBD/A-24 Thunderbolt F-47N Catalina PBY-5A/OA-10 Duck J2F/NA-12 Kansas T-ll/SNB-1 Kingfisher OS2U
Fighter Reconnaissance
Transport
Italy Italy Italy U.S.A. U.S.A. Italy Italy Italy Italy
Trainer
Sentinel L-5/OY Skytrain C-47/R4D Commando C-46/R5C Voyager C-45/JRB Forwarder C-61/GK Cornell T-19 Valiant (B) T-15/SNV Kaydet T-13/N2B Kansas T-ll/SNB-1 Texan T-6/SNJ
Manufacturer
Country
Douglas
U.S.A.
Republic
U.S.A.
Convair Grumman
U.S.A. U.S.A.
Beechcraft Chance Vought Convair
U.S.A. U.S.A. U.S.A.
Douglas
U.S.A.
Curtiss
U.S.A.
Beechcraft
U.S.A.
Fair child Fairchild
U.S.A. U.S.A.
Convair Boeing
U.S.A. U.S.A.
Beechcraft North Amer ican
U.S.A.
FM 30-30
U.S.A.
OPNAV 32P-1200/3 AFM 50-40C
NICARAGUA
NETHERLANDS (The Kingdom of the Netherlands)
(The Republic of Nicaragua)
The Royal Netherlands Air Force
Service Aviation in the Netherlands is organized in two separate arms, the Naval Air Service and the Army Ah- Force. The E. N. A. F. as part of the Army has a large amount of autonomy. There is a movement within the Ministry of War to create an autonomous Air Force. Equipment
Type Fighter
Transport
Liaison Trainer
Designation
Thunderjet F-84E Meteor Mks. 4, 8 Spitfire Mk. 9 Skytrain C-47/R4D Lockheed 12A Dominie Auster Texan T-6/SNJ Tiger Moth Oxford Anson Navigator T-7/SNB-2 Proctor Instructor S. 11 Meteor Mk. 7 Spitfire
Manufacturer Republic Gloster Vickers
Country U.S.A. G.B. G.B.
Douglas Lockheed de Havilland Auster North American de Havilland Airspeed A. V. Roe
U.S.A. U.S.A. U.S.A. G.B.
'Beechcraft Percival Fokker Gloster Vickers
U.S.A. G.B. Dutch G.B. G.B.
The Nicaraguan Army Air Force
The Nicaraguan Army Air Force (Fuerza Aerea de la Guardia Nacional) is administered by the Ministry of War, Marine and Aviation which is responsible to the President of the Republic. Equipment Type
Light Bomber Fighter Transport
Trainer
U.S.A. G.B. G.B. G.B.
Equipment Type
Designation
Manufacturer
Country
Light Bomber
Mitchell B-25/PBJ Firefly Sea Fury Catalina PBY-5,5A/OA-10 Ventura PV-l/B-34 Neptune P2V Oxford Auster Sea Otter Texan T-6/SNJ
North American Fairey Hawker
U.S.A. G.B. G.B.
Convair
U.S.A.
Lockheed Lockheed Airspeed Auster Vickers North American
U.S.A. U.S.A. G.B. G.B. G.B.
Fighter Reconnaissance
Trainer
SUPPLEMENT NO. 3 JUNE 1952
U.S.A.
Havoc A-20/BD Liberator B-24/PB4Y-1 Lightning F-38 Skytrain C-47/R4D Bobcat C-78/JRC Waco EGC-8 Cornell T-19 Valiant (B)T-13/SNV Texan T-6/SNJ Fleet 10 Waco T-14
Manufacturer
Country
Douglas
U.S.A.
Consolidated Lockheed
U.S.A. U.S.A.
Douglas
U.S.A.
Cessna Waco Fairchild
U.S.A. U.S.A. U.S.A.
Convair North American Fleet Waco
U.S.A. U.S.A. Canada U.S.A.
NORWAY
Netherlands Naval Air Force
The Flag Officer in charge of the Naval Air Services is an Admiral. The 14,000 ton British Escort Carrier Nairana, which was loaned to the Netherlands Navy in 1946 and operated under the Dutch name of Karel Doorman, returned to the U. K. in March, 1948, and in May was replaced by the Light Fleet Carrier Venerable of 14,500 tons. The name of Karel Doorman was once again used in renaming the Venerable.
Designation
(The Kingdom of Norway) The Royal Norwegian Air Force
The Army and Navy Air Services were unified in 1944 and the Eoyal Norwegian Air Force now functions as an independent service. Equipment Type
Designation
Spitfire Mk. 9 Vampire Mosquito Vampire Mk. 3 Reconnaissance Catalina PBY Skytrain C-47/ Transport B.4D Fairchild Trainer (P)T-26 Texan T-6/SNJ Fighter
Liaison
Anson Oxford Storch Fi. 156 Norseman C-64/JA
Manufacturer
Country
Vickers de Havilland de Havilland de Havilland Convair
G.B. G.B. G.B. G.B. U.S.A.
Douglas
U.S.A.
Fairchild North American A. V. Roe Air Speed Fiesler
U.S.A. U.S.A. G.B. G.B. Germany
C.C.F.
Canada
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Security Information Type Trainer
PARAGUAY (The Republic of Paraguay)
The Paraguayan Air Force and the Naval Air Arm were recently combined to form the Fuerzas Aereas Nacionales. It is administered as a section of the Army by the Ministry of War and Marine. The Commanding officer has headquarters at Campo Grande Airport, near Asuncion.
Trainer
Manufacturer
Voyager C-45/JRB Bonanza Cornell T-19 Valiant (B)T-13/ SNV Texan T-6/SNJ Kansas T-ll/ SNB-1
Beechcraft Beechcraft Fairchild
Country
North American
U.S.A.
Navigator T-7/ SNB-2 Kansas T-ll/ SNB-1 Kaydet T-17/N2S Travelair Falcon SNC Fairchild (P)T-26 F-64 (NA-50A)
Equipment Designation
Manufacturer
Valiant(B)T-13/ SNV D. L. 22
The Paraguayan Air Force
Type Transport
Designation
Texan T-6/SNJ
Country
U.S.A. U.S.A.
U.S.A.
Beechcraft
U.S.A.
Equipment
The Peruvian Air Force (Fuerza Aerea del Peru) is an independent service administered by the Ministry of Aeronautics. The Chief of Air Staff and the Officer Commanding the Air Arm has headquarters at Lima.
Transport
Equipment
SUPPLEMENT NO. 3 JUNE 1952
Trainer Utility
Country
North Lockheed Douglas Northrop Curtiss
Republic Grumman Curtiss Lockheed Stinson
U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
de Havilland Faucett Douglas
U.S.A.
Convair
U.S.A. U.S.A. U.S.A.
Beechcraft Cessna
Designation
Mustang F-51D
Skytrain C-47/ R4D Norseman C-64/ JA Texan T-6/SNJ Fairchild (P)T-26 Sentinel L-5/OY Grasshopper L-4/ NE
Manufacturer
North American
Country
U.S.A.
Douglas
U.S.A.
Noorduyn North American Fairchild Convair
Canada
Piper
U.S.A.
U.S.A. U.S.A. U.S.A.
U.S.A.
U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. Peru
Taylorcraft
U.S.A.
The Philippine Air Force is one of the world's more recent air forces. Its organization is similar to that of the U. S. A. F., but on a reduced scale.
Fighter
American
U.S.A. U.S.A. U.S.A. U.S.A. U.S.A.
The Philippine Air Force
The Peruvian Air Force
Mitchell B-25J/ PBJ Harpoon PV-2/ B-34 Attack A-33 A-17 Fighter Hawk F-36 Thunderbolt F-47 Reconnaissance Goose JRF/OA-9 Curtiss Condor C-30 Harpoon PV-2 Stinson L-5 Taylorcraft Transport Rapide Faucett F-19 Skytrain C-47/' R4D Catalina PBY/ OA-10 Traveler GB/C-43 Bobcat C-78/JRC
Beechcraft Boeing Stinson Curtiss Fairchild North
(Philippine Republic)
Type
Light Bomber
U.S.A.
U.S.A.
PHILIPPINES
U.S.A.
Convair North American
Manufacturer
Beechcraft
American
(The Republic of Peru)
Designation
Argentina
U.S.A.
PERU
Type
Convair Institute Aero.
POLAND (The Republic of Poland) The Polish Air Force
The Polish Air Force (Lotnictwo Polskie) is organized as an independent service on the same plane as the Army and Navy. These services operate under the Commander in Chief of all the armed forces in Poland. This new P. A. F. conforming to Soviet standards was organized in 1945 as a pattern of the S. A. F. In addition to the air force there is a small Naval Air Arm. This component is an integral element of the Polish Navy and is administered separately from the P. A. F. FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Security Information
RUMANIA
The Polish Air Force—Continued Equipment Type
Light Bomber Attack Fighter
Designation
Pe-2 Tu-2 Stormovik Il-2,-10 MIG-15
Type 28 (jet) Type 16 (jet) Yak-9P Reconnaissance Seibel An-2 Po-2 Storch Fi. 156 Skytrain C-47/ Transport R4D Li-2 (C-47 type) 11-12 Type 26 (jet) Trainer Type29UMK3-15 (jet) TJT-2
Manufacturer
Country
Petlyakov Topolev
U.S.S.R. U.S.S.R.
Ilyushin Mikoyan & Gurevich Yakovlev Yakovlev Yakovlev Seibel Antonov Polikarpov Fiesler
U.S.S.R, U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R. Germany U.S.S.R. U.S.S.R. Germany
Douglas
U.S.A.
Lisitsin Ilyushin Yakovlev Mikoyan & Gurevich Yakovlev
U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R.
(The Rumanian Popular Republic) The Rumanian Air Force
The Peace Treaty limits the size of the Eumanian Air Force to 150 aircraft, of which not more than 100 are to be combat types and a personnel strength of 8,000 officers and men. Under these terms Rumania is forbidden to maintain any bombing aircraft or make experiments with or construct remote-control piloted or pilotless aerial weapons. Since the advent of Soviet influence the above information can be considered academic. The Rumanian Air Force is administered by the Ministry of National Defense with headquarters in Bucharest. The high command of the Air Force is on a level with the various Army Commands and the Navy Command. Like other satellite air forces the Rumanian Air Force is being equipped and trained by the Soviets. Equipment
Type
PORTUGAL (The Republic oF Portugal)
Light Bomber Attack
Pe-2 Stormovik 11-2 IAR-80, -81
Fighter
MIG-15
The Portuguese Air Forces
The Portuguese Air Force is an autonomous service on the same level with the Army and Navy. Under a reorganization in 1952 the Air Force was separated from the Army and Navy.
Type
Designation
Light
Fortress B-17C/PB-1 Thunderjet F-84 Spitfire Mk. 5 Hurricane Mk. 2B Skymaster C-54/R5D Skytrain C-47/R4D Ju. 52 Anson Moth Gladiator Oxford Master Mk. 3 Texan T-6/SNJ
Bomber Fighter Transport
Training
Tutor Magister Shooting Star T-33/TV
SUPPLEMENT NO. 3 JUNE 1952
Reconnais sance Transport
Equipment
Manufacturer
Country
Boeing Republic Vickers Hawker
U.S.A. U.S.A. G.B. G.B.
Douglas
U.S.A.
Douglas Junkers A. V. Roe de Havilland Gloster Airspeed Miles North Ameri can Miles Miles
U.S.A. G.B. G.B. G.B. G.B. G.B. G.B. U.S.A. G.B. G.B.
Lockheed
U.S.A.
Designation
Trainer
Yak-15 Yak-9 Me. 109G Po-2 Storch Fi. 156 IAR-39 Ju. 52 Sparviero SM.79 Lodestar C-60/R5O Type 26 (jet) Type 29 UMIG-15 (jet) Yak-11 Po-2
Manufacturer
Country
Petlyakov Ilyushin Ind. Aero. Rumania Mikoyan & Gurevich Yakovlev Yakovlev Messerschniitt Polikarpov Fiesler Ind. Aero. Rumania
U.S.S.R.
Junkers
SiaiMarchetti
Lockheed Yakovlev Mikoyan & Gurevich Yakovlev Polikarpov
U.S.S.R.
Rumania U.S.S.R. U.S.S.R. U.S.S.R. Germany U.S.S.R. GermanyRumania Germany Italy U.S.A. U.S.S.R. U.S.S.R. U.S.S.R. U.S.S.R.
SPAIN (The Spanish State) The Spanish Air Force
Military Aviation in Spain was organized in October, 1939, as an independent Army of the Air on terms of equality with the Army and the Navy. It is administered by the Air Ministry. FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
Security InformaHofT"
Type
The Spanish Air Force—Continued
FighterContinued
Equipment Type
Designation
Manufacturer
Light Bomber
SM-79
SiaiMarchetti Heinkel Fiat Pilatus
He. Ill Cicogna BR. 20 Pelican SB. 2
Attack Fighter
Reconnais sance
Liaison
Training
Ju. 88 Mitchell B-25/PBJ He. 45, 51 Libeccio Ca. 310 1-15 Fury CR. 32 Falcho G. 50 He. 112 Me. 109B, F, J Rata I-16/M-25 He. 46, 70, 114A Do. 17, 24 HS-126 G-23 Catalina PBY5A/OA-10 Dowal R043 Falcon L-6 (Spartan Exec.) L-12
Junkers North Ameri can Heinkel Caproni
Country
Italy Germany Italy Switzer land Germany
U.S.A. Germany Italy Polikarpov U.S.S.R. G.B. Hawker Italy Fiat Fiat Italy Germany Heinkel Messerschmitt Germany Polikarpov U.S.S.R. Germany Heinkel Germany Dornier Germany Hispano Grumman U.S.A. Convair Miles Spartan
Stinson Convair Fieseler Ryan de Havilland
Vultee L-13 Storch Fi. 156 Navion L-17 Moth E-30 Jungmeister Bucker Bu. 133 HM-1,-2,-5,-9 Gotha GO. 145 Fiat CR. 32 Hispano HS-42 Lodestar C-60/ Lockheed R5O
U.S.A. Germany Italy G.B. U.S.A. U.S.A. U.S.A. U.S.A. U.S.A. G.B. Spain Germany Spain Germany Italy Spain
Manufacturer
Designation
Mustang F— 51 Vampire
Reconnaissance C-3603, 3604 Voyager C-45/ Transport JRB Ju. 52 Training JungmanBu.131 Jungmeister Bu. 133 Me. 108 C-35 P-2; P-2-06 Texan T-6/SNJ D-3800 AT-16
Country
North Ameri U.S.A. can de Havilland G.B. Fed. Air. Fact. Switzer land U.S.A. Beechcraft Germany Junkers Germany Bucker Bucker Messerchmitt Fed. Air. Fact. Pilatus North Ameri can MoraneSaulnier Noorduyne
Germany Germany Switzer land Switzer land U.S.A. France U.S.A.
SYRIA (The Syrian Republic) The Syrian Air Force
The Syrian Air Force is little more than an unim portant adjunct to the Army and is virtually inactive. Equipment
Type
Fighter Transport
Trainer
Utility
U.S.A.
Designation
G. 55 Macchi 205 Skytrain C-47/ R4D Ju. 52 Dove Texan T-6/SNJ
Manufacturer
Country
Fiat Macchi
Italy Italy
Douglas Junkers de Havilland North Ameri can de Havilland Airspeed Fiat Fiat Percival
U.S.A. Germany G.B.
Tiger Moth Oxford G. 55 G. 46 Proctor Forwarder (U)C61/GK Fairchild Grasshopper L—I/ NE Piper
U.S.A. G.B. G.B. Italy Italy G.B. U.S.A. U.S.A.
THAILAND SWITZERLAND
(The Kingdom of Thailand) The Royal Thai Air Force
(The Swiss Federation) The Swiss Air Force
The Swiss Air Force is an integral branch of the Army and is administered by a Branch of the Federal Military Department with headquarters at Bern. Type
Designation
Manufacturer
Morane D-3801, 3802
Morane-Saulnier
SUPPLEMENT NO. 3 JUNE 1952
Equipment
Tgjte Attack
Equipment
Fighter
The Eoyal Thai Air Force is a small autonomous force on an equal level with the Army and the Navy. The R. T. A. F. is responsible to the Minister of Defense with headquarters in Don Muang.
Country
Fighter France
Designation Helldiver SB2C/
A-25 Spitfire Mk. 14 Bearcat F8F
Manufacturer
Country
Curtiss Vickers Grumman
U.S.A. G.B. U.S.A.
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C
DECLASSIFIED The Royal Thai Air Force—Continued Type
Designation
Reconnaissance Grasshopper L-4/ NE Widgeon J4F/ OA-14 Sentinel L-5/OY Skytrain C-47/ Transport R4D Voyager C-45/ JRB Bonanza Texan T-6/SNJ Training
Helicopter
The Director-General of Military Aeronautics is responsible to the Minister of Defense through the Inspector-General of the Army.
Manufacturer
Country
Piper
U.S.A.
Grumman Convair
U.S.A. U.S.A.
Air Force Type
Designation
Manufacturer
Country
Douglas
U.S.A.
Light Bomber
U.S.A. U.S.A.
Fighter
Mitchell B-25/PBJ Mustang F-51
North Ameri can
U.S.A.
Beechcraft Beechcraft North Ameri can de Havilland Chipmunk Miles Magister de Havilland Tiger Moth S-51(HO3S/H-5) Sikorsky
U.S.A. G.B. G.B. E.G. U.S.A.
TURKEY
Equipment
Transport
Liaison Training
(The Turkish Republic)
Kansas T-ll/SNB-1 Cornell (P) T-19 (P) T-26
The Turkish Air Force
The Turkish Air Force, though nominally co equal with the Army and Navy, actually is under Army control and the Ministry of National Defense has headquarters at Ankara. Equipment Designation Manufacturer Invader B-26/ JD Douglas Mosquito Mk. 6 de ITavilland Attack Beaufighter Mk. 10 Bristol Fighter Spitfire Mk. 9 Vickers Thunderbolt F-47 Republic Thunderjet F-84 Republic Reconnaissance Spitfire Mks. 9, 19 Vickers Mosquito Mks. 3,6 Beechcraft Transport Skytrain O47/ R4D Douglas Trainer Magister Miles Consul Airspeed Texan T-6/SNJ North Ameri can Kansas T-ll/ SNB Beechcraft Oxford Airspeed Shooting Star T-33/TV Lockheed Type Light Bomber
Country
U.S.A. G.B. G.B. G.B. U.S.A. U.S.A. G.B. U.S.A. U.S.A. P-B. G.B. U.S.A. U.S.A. G.B. U.S.A.
URUGUAY (The Republic of Uruguay)
The Uruguayan Air Force is an integral part of the Army. The Air Force is administered by the Directorate of Aeronautics under the general super vision of the Ministry of National Defense.
SUPPLEMENT NO. 3 JUNE 1952
Skytrain C-47/R4D Voyager C-45/JRB C-43 Grasshopper L-4/NE Navion L-17B Texan T-6/SNJ
North Ameri can
U.S.A.
Douglas
U.S.A.
Beechcraft Brechcraft
U.S.A. U.S.A.
Piper Ryan North Ameri can
U.S.A. U.S.A.
Beechcraft Fairchild Fairchild
U.S.A. U.S.A. U.S.A.
U.S.A.
Naval Air Arm
The Naval Air Service (Servicio Aeronautica de la Marina) is under the control of the InspectorGeneral of the Navy and under the General super vision of the Ministry of National Defense. The Inspector-General of the Navy is a Captain with headquarters at Isla Libertad. The Ministry of National Defense has its head quarters at Montevideo. Equipment Type
Designation
Manufacturer
Country
Light Bomber Fighter Reconnais sance
Avenger TBM Hellcat F6F Goose JR4-2/OA-19 Kingfisher OS2U Texan T-6/SNJ
Martin Grumman
U.S.A. U.S.A.
Grumman
U.S.A. U.S.A.
Trainer
Cornell (P) T-23
Curtiss North Ameri can Fairchild
U.S.A. U.S.A.
VENEZUELA
i'TL- D _ ..LI:-
-I \J'
1 \
The Venezuelan Air Force
The Venezuelan Air Force is an independent serv ice under the control of the Minister of National Defense. The Ministry of National Defense is established at Caracas.
FM 30-30
OPNAV 32P-1200/3 AFM 50-40C
U.S.A.
A Lieutenant-General is the Commander in Chief of the Air Force and the Chief of the Air Force Staff. His headquarters are in Belgrade, and he is reponsible to the Chief of the General Staff, a Colonel-General. The Yugoslavian Air Force is similar in organ ization to the Soviet Air Force. This pattern was set before Tito broke with the Soviets in 1948.
U.S.A.
Equipment
The Venezuelan Air Force—Continued Equipment Type
Designation
Light Bomber
Mitchell B-25/ North Ameri PBJ can Thunderbolt P-47 Republic Vampire Mk. 5 de Havilland Texan T-6/SNJ North Ameri can Skytrain C-47/ R4D Douglas Skymaster C-54/R5D Douglas Electra C-36 Lockheed Kansas T-ll/ Beechcraft SNB-1 Texan T-6/SNJ North Ameri can Valiant (B) T-13/ Convair SNV Cornell (P) T-19 Fairchild Kaydet T-17/ Boeing N2S Navion L-17 Ryan
Fighter Reconnais sance Transport Transport Trainer
Manufacturer
Country
U.S.A. U.S.A. G.B.
U.S.A. U.S.A. U.S.A. U.S.A.
Type Designation Light Bomber Pe-2 Attack Mosquito Stormovik 11-2
Fighter
U.S.A. U.S.A. U.S.A. U.S.A.
Transport
YUGOSLAVIA (The Federative People's Republic of Yugoslavia) The Yugoslav Air Force
The Yugoslav Air Force is administered by the Ministry of National Defense through the Army General Staff. Marshal Josip Broz, popularly known as Marshal Tito is the Minister of National Defense.
Training
Manufacturer
Country
Petlyakov de Havilland Ilvushin
U.S.S.R. G.B. U.S.S.R.
Thunderbolt F-47 Yak-3, -9 S-49 (Yak type) Me. 109 Spitfire
Republic Yakovlev Ikarus Messerschmitt Vickers Hawker Hurricane Li-2 (C-47 type) Lisitsin Junkers Ju. 52 Shche-2 Shcherbakov UT-2 Yakovlev Po-2 Polikarpov Aero Aero-2 Yak-7 Yakovlev UI1-2 Ilyushin Texan T-6/SNJ North Ameri can Storch Fi. 156c Fieseler
U.S.A.
U.S.S.R.
Yugoslavia Germany G.B. G.B. U.S.S.R. Germany U.S.S.R. U.S.S.R. U.S.S.R. Yugoslavia U.S.S.R. U.S.S.R. U.S.A. Germany
DECLASSIFIED
U. S. GOVERNMENT PRINTING OFFICE: 19B2
SUPPLEMENT NO. 3 JUNE 1952
FM 30-30 OPNAV 32P-1200/3 AFM 50-40C